GAIP and RGS4 are GTPase-activating proteins for the G(i) subfamily of G protein α subunits

David M. Berman; Thomas M. Wilkie; Alfred G. Gilman

doi:10.1016/S0092-8674(00)80117-8

GAIP and RGS4 are GTPase-activating proteins for the G(i) subfamily of G protein α subunits

David M. Berman, Thomas M. Wilkie, Alfred G. Gilman

Research output: Contribution to journal › Article › peer-review

660 Scopus citations

Abstract

A novel class of regulators of G protein signaling (RGS) proteins has been identified recently. Genetic evidence suggests that RGS proteins inhibit G protein-mediated signaling at the level of the receptor-G protein interaction or the G protein α subunit itself. We have found that two RGS family members, GAIP and RGS4, are GTPase-activating proteins (GAPs), accelerating the rate of GTP hydrolysis by G(iα1) at least 40-fold. All G(i) subfamily members assayed were substrates for these GAPs; G(sα) was not. RGS4 activates the GTPase activity of certain G(iα1) mutants (e.g., R178C), but not others (e.g., Q204L). The GAP activity of RGS proteins is consistent with their proposed role as negative regulators of G protein-mediated signaling.

Original language	English (US)
Pages (from-to)	445-452
Number of pages	8
Journal	Cell
Volume	86
Issue number	3
DOIs	https://doi.org/10.1016/S0092-8674(00)80117-8
State	Published - Aug 9 1996

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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10.1016/S0092-8674(00)80117-8

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title = "GAIP and RGS4 are GTPase-activating proteins for the G(i) subfamily of G protein α subunits",

abstract = "A novel class of regulators of G protein signaling (RGS) proteins has been identified recently. Genetic evidence suggests that RGS proteins inhibit G protein-mediated signaling at the level of the receptor-G protein interaction or the G protein α subunit itself. We have found that two RGS family members, GAIP and RGS4, are GTPase-activating proteins (GAPs), accelerating the rate of GTP hydrolysis by G(iα1) at least 40-fold. All G(i) subfamily members assayed were substrates for these GAPs; G(sα) was not. RGS4 activates the GTPase activity of certain G(iα1) mutants (e.g., R178C), but not others (e.g., Q204L). The GAP activity of RGS proteins is consistent with their proposed role as negative regulators of G protein-mediated signaling.",

author = "Berman, {David M.} and Wilkie, {Thomas M.} and Gilman, {Alfred G.}",

note = "Funding Information: We thank Dr. Jessie English for the gift of rat brain cDNA, Dr. Tohru Kozasa for G zα , Dr. Andre Raw for G iα1 E207A and G iα1 R178C, and Dr. Bruce Posner for G iα1 Q204L. We appreciate the expert technical assistance of Pamela Sternweis, Fang Fang Li, and the Pharmacology Core DNA Sequencing Facility. T. M. W. was supported in part by a grant from the Leukemia Association of North Central Texas and by a Basil O'Connor Starter Scholar Award. This research was supported by National Institutes of Health Grants GM34497 (to A. G. G.) and DK47890 (to T. M. W.) and the Raymond and Ellen Willie Distinguished Chair of Molecular Neuropharmacology.",

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N1 - Funding Information: We thank Dr. Jessie English for the gift of rat brain cDNA, Dr. Tohru Kozasa for G zα , Dr. Andre Raw for G iα1 E207A and G iα1 R178C, and Dr. Bruce Posner for G iα1 Q204L. We appreciate the expert technical assistance of Pamela Sternweis, Fang Fang Li, and the Pharmacology Core DNA Sequencing Facility. T. M. W. was supported in part by a grant from the Leukemia Association of North Central Texas and by a Basil O'Connor Starter Scholar Award. This research was supported by National Institutes of Health Grants GM34497 (to A. G. G.) and DK47890 (to T. M. W.) and the Raymond and Ellen Willie Distinguished Chair of Molecular Neuropharmacology.

PY - 1996/8/9

Y1 - 1996/8/9

N2 - A novel class of regulators of G protein signaling (RGS) proteins has been identified recently. Genetic evidence suggests that RGS proteins inhibit G protein-mediated signaling at the level of the receptor-G protein interaction or the G protein α subunit itself. We have found that two RGS family members, GAIP and RGS4, are GTPase-activating proteins (GAPs), accelerating the rate of GTP hydrolysis by G(iα1) at least 40-fold. All G(i) subfamily members assayed were substrates for these GAPs; G(sα) was not. RGS4 activates the GTPase activity of certain G(iα1) mutants (e.g., R178C), but not others (e.g., Q204L). The GAP activity of RGS proteins is consistent with their proposed role as negative regulators of G protein-mediated signaling.

AB - A novel class of regulators of G protein signaling (RGS) proteins has been identified recently. Genetic evidence suggests that RGS proteins inhibit G protein-mediated signaling at the level of the receptor-G protein interaction or the G protein α subunit itself. We have found that two RGS family members, GAIP and RGS4, are GTPase-activating proteins (GAPs), accelerating the rate of GTP hydrolysis by G(iα1) at least 40-fold. All G(i) subfamily members assayed were substrates for these GAPs; G(sα) was not. RGS4 activates the GTPase activity of certain G(iα1) mutants (e.g., R178C), but not others (e.g., Q204L). The GAP activity of RGS proteins is consistent with their proposed role as negative regulators of G protein-mediated signaling.

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GAIP and RGS4 are GTPase-activating proteins for the G(i) subfamily of G protein α subunits

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