Selective coupling of G protein beta gamma complexes to inhibition of Ca2+ channels

Several mechanisms couple heterotrimeric guanine nucleotide-binding proteins (G proteins) to cellular effectors. Although alpha subunits of G proteins (Galpha) were the first recognized mediators of receptor-effector coupling, Gbetagamma regulation of effectors is now well known. Five Gbeta and 12 G...

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Veröffentlicht in:	The Journal of biological chemistry 2000-09, Vol.275 (37), p.28380-28385
Hauptverfasser:	Diversé-Pierluissi, M, McIntire, W E, Myung, C S, Lindorfer, M A, Garrison, J C, Goy, M F, Dunlap, K
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Calcium Channel Blockers - pharmacology Calcium Channels - drug effects Chick Embryo GTP-Binding Proteins - pharmacology Protein Kinase C - physiology Recombinant Proteins - pharmacology Type C Phospholipases - physiology
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container_title	The Journal of biological chemistry
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creator	Diversé-Pierluissi, M McIntire, W E Myung, C S Lindorfer, M A Garrison, J C Goy, M F Dunlap, K
description	Several mechanisms couple heterotrimeric guanine nucleotide-binding proteins (G proteins) to cellular effectors. Although alpha subunits of G proteins (Galpha) were the first recognized mediators of receptor-effector coupling, Gbetagamma regulation of effectors is now well known. Five Gbeta and 12 Ggamma subunit genes have been identified, suggesting through their diversity that specific subunits couple selectively to effectors. The molecular determinants of Gbetagamma-effector coupling, however, are not well understood, and most studies of G protein-effector coupling do not support selectivity of Gbetagamma action. To explore this issue further, we have introduced recombinant Gbetagamma complexes into avian sensory neurons and measured the inhibition of Ca(2+) currents mediated by an endogenous phospholipase Cbeta- (PLCbeta) and protein kinase C-dependent pathway. Activities of Gbetagamma in the native cells were compared with enzyme assays performed in vitro. We report a surprising selective activation of the PLCbeta pathway by Gbetagamma complexes containing beta(1) subunits, whereas beta(2)-containing complexes produced no activation. In contrast, when assayed in vitro, PLCbeta and type II adenylyl cyclase did not discriminate among these same Gbetagamma complexes, suggesting the possibility that additional cellular determinants confer specificity in vivo.
doi_str_mv	10.1074/jbc.M003571200
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Although alpha subunits of G proteins (Galpha) were the first recognized mediators of receptor-effector coupling, Gbetagamma regulation of effectors is now well known. Five Gbeta and 12 Ggamma subunit genes have been identified, suggesting through their diversity that specific subunits couple selectively to effectors. The molecular determinants of Gbetagamma-effector coupling, however, are not well understood, and most studies of G protein-effector coupling do not support selectivity of Gbetagamma action. To explore this issue further, we have introduced recombinant Gbetagamma complexes into avian sensory neurons and measured the inhibition of Ca(2+) currents mediated by an endogenous phospholipase Cbeta- (PLCbeta) and protein kinase C-dependent pathway. Activities of Gbetagamma in the native cells were compared with enzyme assays performed in vitro. 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We report a surprising selective activation of the PLCbeta pathway by Gbetagamma complexes containing beta(1) subunits, whereas beta(2)-containing complexes produced no activation. In contrast, when assayed in vitro, PLCbeta and type II adenylyl cyclase did not discriminate among these same Gbetagamma complexes, suggesting the possibility that additional cellular determinants confer specificity in vivo.</abstract><cop>United States</cop><pmid>10880514</pmid><doi>10.1074/jbc.M003571200</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Calcium Channel Blockers - pharmacology Calcium Channels - drug effects Chick Embryo GTP-Binding Proteins - pharmacology Protein Kinase C - physiology Recombinant Proteins - pharmacology Type C Phospholipases - physiology
title	Selective coupling of G protein beta gamma complexes to inhibition of Ca2+ channels
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