Agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP productionAgonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production
Agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP productionAgonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Agonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assayAgonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assay
Agonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assayAgonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assay
Agonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assayAgonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Agonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assayAgonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assay
Agonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assayAgonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assay
Agonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assayAgonist activity at rat mGlu7 receptor expressed in HEK cell co-expressing Galpha15 (unknown origin) assessed as reduction in intracellular Ca2+ mobilization by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Allosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assayAllosteric agonist activity at human mGlu7 expressed in CHO cells assessed as reduction in forskolin-induced cAMP production after 30 mins by cAMP reagent-based assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Metabotropic glutamate receptor 7 antagonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cellsMetabotropic glutamate receptor 7 antagonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cells
Metabotropic glutamate receptor 7 antagonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cellsMetabotropic glutamate receptor 7 antagonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cells
Metabotropic glutamate receptor 7 antagonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cellsMetabotropic glutamate receptor 7 antagonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cells
Agonist activity at rat mGlu7 receptor expressed in HEK293 cells co-transfected with G-protein alpha and EAAC1 assessed as increase in intracellular calcium level after 1 hr by fluorescence microplate readerAgonist activity at rat mGlu7 receptor expressed in HEK293 cells co-transfected with G-protein alpha and EAAC1 assessed as increase in intracellular calcium level after 1 hr by fluorescence microplate reader
Agonist activity at rat mGlu7 receptor expressed in HEK293 cells co-transfected with G-protein alpha and EAAC1 assessed as increase in intracellular calcium level after 1 hr by fluorescence microplate readerAgonist activity at rat mGlu7 receptor expressed in HEK293 cells co-transfected with G-protein alpha and EAAC1 assessed as increase in intracellular calcium level after 1 hr by fluorescence microplate reader
Metabotropic glutamate receptor 7 agonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cellsMetabotropic glutamate receptor 7 agonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cells
Metabotropic glutamate receptor 7 agonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cellsMetabotropic glutamate receptor 7 agonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cells
Metabotropic glutamate receptor 7 agonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cellsMetabotropic glutamate receptor 7 agonist activity to influence forskolin stimulated c-AMP formation in rat non neuronal cells
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Compound was evaluated for the inhibition of forskolin stimulated cAMP accumulation in CHO cells expressing hmGluR7bCompound was evaluated for the inhibition of forskolin stimulated cAMP accumulation in CHO cells expressing hmGluR7b
Compound was evaluated for the inhibition of forskolin stimulated cAMP accumulation in CHO cells expressing hmGluR7bCompound was evaluated for the inhibition of forskolin stimulated cAMP accumulation in CHO cells expressing hmGluR7b
Compound was evaluated for the inhibition of forskolin stimulated cAMP accumulation in CHO cells expressing hmGluR7bCompound was evaluated for the inhibition of forskolin stimulated cAMP accumulation in CHO cells expressing hmGluR7b
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting methodAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting method
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting methodAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting method
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting methodAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting method
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.Pharmacological Assay: Metabotropic glutamate receptors were transiently transfected in HEK293 cells by electroporation as described elsewhere (Brabet I. et al., 1998) and plated in 96-well microplates. The high affinity glutamate transporter EAAC1 was co-transfected with the receptor in order to avoid any influence of glutamate released by the cells in the assay medium. In the experiments carried out by the inventors, Group-III mGluRs were co-transfected with a chimeric G-protein which couples the activation of the receptor to the phospholipase-C (PLC) pathway. Thus receptor activation induces production of inositol phosphate (IP) which in turn induces intracellular Ca2+ release. Receptor activity was then determined by measurement of the IP production or Ca release as already described (Goudet C. et al., PNAS 2004). For intracellular calcium measurements, cells expressing mGluRs were loaded with Ca2+-sensitive fluorescent dye Fluo-4 AM (Invitrogen, Cergy-Pontoise, France) dissolved in Hanks' balanced Salt Solution.
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting methodAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting method
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting methodAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as [3H]inositol phosphate accumulation after 30 mins by scintillation and luminescence counting method
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as increase in glutamate-induced calcium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Positive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assayPositive allosteric modulation of rat mGlu7 receptor expressed in HEK293 cells co-expressing Gai5 assessed as potentiation of L-AP4-induced calcium mobilization preincubated for 140 secs and treated with EC20 L-AP4 for 125 secs and followed by subsequent addition of EC80 L-AP4 by Fluo-4-AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assayAgonist activity at mGlu7 (unknown origin) expressed in HEK293 cells coexpressing chimeric Gq/i protein assessed as increase in intracellular calcium accumulation by Fluo-4 AM dye based fluorescence assay
Agonist activity at rat mGlu7 receptor expressed in HEK293 cells co-transfected with G-protein alpha and EAAC1 assessed as increase in intracellular calcium level after 1 hr by fluorescence microplate readerAgonist activity at rat mGlu7 receptor expressed in HEK293 cells co-transfected with G-protein alpha and EAAC1 assessed as increase in intracellular calcium level after 1 hr by fluorescence microplate reader
Agonist activity at rat mGlu7 receptor expressed in HEK293 cells co-transfected with G-protein alpha and EAAC1 assessed as increase in intracellular calcium level after 1 hr by fluorescence microplate readerAgonist activity at rat mGlu7 receptor expressed in HEK293 cells co-transfected with G-protein alpha and EAAC1 assessed as increase in intracellular calcium level after 1 hr by fluorescence microplate reader
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Positive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assayPositive allosteric modulation of human mGluR7 in presence of EC20 concentration of L-AP4 by calcium mobilization assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at recombinant human mGlu7 receptor expressed in hamster AV12 cells co-expressing human EAAT1/Galpha1s assessed as inhibition of Ca2+ flux by Fluo-3-AM dye based FLIPR assayAntagonist activity at recombinant human mGlu7 receptor expressed in hamster AV12 cells co-expressing human EAAT1/Galpha1s assessed as inhibition of Ca2+ flux by Fluo-3-AM dye based FLIPR assay
Antagonist activity at recombinant human mGlu7 receptor expressed in hamster AV12 cells co-expressing human EAAT1/Galpha1s assessed as inhibition of Ca2+ flux by Fluo-3-AM dye based FLIPR assayAntagonist activity at recombinant human mGlu7 receptor expressed in hamster AV12 cells co-expressing human EAAT1/Galpha1s assessed as inhibition of Ca2+ flux by Fluo-3-AM dye based FLIPR assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Allosteric antagonist activity at rat mGlu7 receptor expressed in CHO cell co-expressing Galpha15 (unknown origin) assessed as reduction in L-AP4-induced intracellular Ca2+ mobilizationAllosteric antagonist activity at rat mGlu7 receptor expressed in CHO cell co-expressing Galpha15 (unknown origin) assessed as reduction in L-AP4-induced intracellular Ca2+ mobilization
Allosteric antagonist activity at rat mGlu7 receptor expressed in CHO cell co-expressing Galpha15 (unknown origin) assessed as reduction in L-AP4-induced intracellular Ca2+ mobilizationAllosteric antagonist activity at rat mGlu7 receptor expressed in CHO cell co-expressing Galpha15 (unknown origin) assessed as reduction in L-AP4-induced intracellular Ca2+ mobilization
Allosteric antagonist activity at rat mGlu7 receptor expressed in CHO cell co-expressing Galpha15 (unknown origin) assessed as reduction in L-AP4-induced intracellular Ca2+ mobilizationAllosteric antagonist activity at rat mGlu7 receptor expressed in CHO cell co-expressing Galpha15 (unknown origin) assessed as reduction in L-AP4-induced intracellular Ca2+ mobilization
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Negative allosteric modulator activity at human mGlu7 assessed as reduction in Ca2+ mobilization by HTS assayNegative allosteric modulator activity at human mGlu7 assessed as reduction in Ca2+ mobilization by HTS assay
Negative allosteric modulator activity at human mGlu7 assessed as reduction in Ca2+ mobilization by HTS assayNegative allosteric modulator activity at human mGlu7 assessed as reduction in Ca2+ mobilization by HTS assay
Negative allosteric modulator activity at human mGlu7 assessed as reduction in Ca2+ mobilization by HTS assayNegative allosteric modulator activity at human mGlu7 assessed as reduction in Ca2+ mobilization by HTS assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as decrease in glutamate-induced thallium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as decrease in glutamate-induced thallium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as decrease in glutamate-induced thallium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as decrease in glutamate-induced thallium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as decrease in glutamate-induced thallium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galphai5 assessed as decrease in glutamate-induced thallium flux incubated for 142 secs followed by glutamate addition measured after 120 secs by Fluo4-AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition for 120 secs followed by L-AP4 addition and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 expressed in HEK cells co-expressing Galpha15 assessed as reduction in L-AP4-induced intracellular calcium flux pretreated for 142 secs followed by glutamate addition and subsequent stimulation of L-AP4 for 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells harboring Ga15 assessed as reduction in L-AP4-induced calcium flux preincubated for 142 secs followed by agonist addition and measured after 120 secs by Fluo-4-AM-dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assayNegative allosteric modulation of rat mGlu7 receptor expressed in HEK cells co-expressing Galpha15 assessed as reduction in calcium mobilization incubated for 142 secs prior to glutamate addition and after 120 secs treated with L-AP4 and measured after 40 secs by Fluo-4 AM dye based fluorescence assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Negative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assayNegative allosteric modulation of rat mGlu7 in HEK cells expressing Galpha15 assessed as inhibition of L-AP4-induced response measured by calcium mobilization assay
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPRAntagonist activity at rat mGluR7 expressed in CHO cells assessed as inhibition of LAP-induced intracellular calcium mobilization by FLIPR
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Antagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluatedAntagonistic activity against metabotropic glutamate receptor 7 (mGluR7) was evaluated
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
Agonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP productionAgonist activity at human mGlu7 receptor expressed in HEK293 assessed as inhibition of forskolin stimulated cAMP production
IN a clacium mobilization assay using rat mGlu<sub>7</sub>/G<sub>α15</sub>/HEK cells activated by the agonist L-AP4.IN a clacium mobilization assay using rat mGlu<sub>7</sub>/G<sub>α15</sub>/HEK cells activated by the agonist L-AP4.
IN a clacium mobilization assay using rat mGlu<sub>7</sub>/G<sub>α15</sub>/HEK cells activated by the agonist L-AP4.IN a clacium mobilization assay using rat mGlu<sub>7</sub>/G<sub>α15</sub>/HEK cells activated by the agonist L-AP4.
IN a clacium mobilization assay using rat mGlu<sub>7</sub>/G<sub>α15</sub>/HEK cells activated by the agonist L-AP4.IN a clacium mobilization assay using rat mGlu<sub>7</sub>/G<sub>α15</sub>/HEK cells activated by the agonist L-AP4.
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Agonist activity at human mGluR7b expressed in CHO cells assessed as inhibition of forskolin-stimulated cAMP accumulationAgonist activity at human mGluR7b expressed in CHO cells assessed as inhibition of forskolin-stimulated cAMP accumulation
Agonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Agonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Agonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Agonist activity at mouse mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at mouse mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Agonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Positive allosteric modulator activity at rat mGlu7 receptor at 10 uM by thallium flux assayPositive allosteric modulator activity at rat mGlu7 receptor at 10 uM by thallium flux assay
Positive allosteric modulator activity at rat mGlu7 receptor at 10 uM by thallium flux assayPositive allosteric modulator activity at rat mGlu7 receptor at 10 uM by thallium flux assay
Agonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Agonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Agonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Agonist activity at human mGluR7b expressed in CHO cells assessed as inhibition of forskolin-stimulated cAMP accumulationAgonist activity at human mGluR7b expressed in CHO cells assessed as inhibition of forskolin-stimulated cAMP accumulation
Agonist activity at human mGluR7b expressed in CHO cells assessed as inhibition of forskolin-stimulated cAMP accumulationAgonist activity at human mGluR7b expressed in CHO cells assessed as inhibition of forskolin-stimulated cAMP accumulation
Agonist activity at human mGluR7b expressed in CHO cells assessed as inhibition of forskolin-stimulated cAMP accumulationAgonist activity at human mGluR7b expressed in CHO cells assessed as inhibition of forskolin-stimulated cAMP accumulation
Agonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assayAgonist activity at human mGluR7 expressed in CHO cells expressing CRE-Luc reporter gene assessed as reduction in forskolin-stimulated cAMP production preincubated for 15 mins followed by forskolin stimulation and measured after 5 hrs by luminescence based Steady glo assay
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Positive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysisPositive allosteric modulation of rat mGlu7 expressed in HEK293 cells co- expressing GIRK assessed as potentiation of L-AP4-induced thallium flux incubated for 140 sec by FluoZin2-AM dye based fluorescence analysis
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Antagonist activity at mGluR7 (unknown origin) assessed as inhibition of L-AP4 stimulated decrease in forskolin induced cAMP response by CRE-Luc assayAntagonist activity at mGluR7 (unknown origin) assessed as inhibition of L-AP4 stimulated decrease in forskolin induced cAMP response by CRE-Luc assay
Antagonist activity at mGluR7 (unknown origin) assessed as inhibition of L-AP4 stimulated decrease in forskolin induced cAMP response by CRE-Luc assayAntagonist activity at mGluR7 (unknown origin) assessed as inhibition of L-AP4 stimulated decrease in forskolin induced cAMP response by CRE-Luc assay
Antagonist activity at mGluR7 (unknown origin) assessed as inhibition of L-AP4 stimulated decrease in forskolin induced cAMP response by CRE-Luc assayAntagonist activity at mGluR7 (unknown origin) assessed as inhibition of L-AP4 stimulated decrease in forskolin induced cAMP response by CRE-Luc assay
Antagonist activity at mGluR7 (unknown origin) assessed as inhibition of L-AP4 stimulated decrease in forskolin induced cAMP response by CRE-Luc assayAntagonist activity at mGluR7 (unknown origin) assessed as inhibition of L-AP4 stimulated decrease in forskolin induced cAMP response by CRE-Luc assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Negative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assayNegative allosteric modulation of mGlu7 (unknown origin) in cells expressing G protein-regulated inwardly rectifying potassium channels (GIRKs) assessed as inhibition of L-AP4-induced response measured by thallium flux assay
Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008
Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008
Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008
Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008
Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008
Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008
Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008Binding affinity towards metabotropic glutamate receptor 7 of rat expressed in CHO cells was determined by using [3H]MGS-0008