Generation and characterization of Rgs4 mutant mice

Nicolas Grillet; Alexandre Pattyn; Candice Contet; Brigitte L. Kieffer; Christo Goridis; Jean François Brunet

doi:10.1128/MCB.25.10.4221-4228.2005

Generation and characterization of Rgs4 mutant mice

Nicolas Grillet, Alexandre Pattyn, Candice Contet, Brigitte L. Kieffer, Christo Goridis, Jean François Brunet

Otolaryngology

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Abstract

RGS proteins are negative regulators of signaling through heterotrimeric G protein-coupled receptors and, as such, are in a position to regulate a plethora of biological phenomena. However, those have just begun to be explored in vivo. Here, we describe a mouse line deficient for Rgs4, a gene normally expressed early on in discrete populations of differentiating neurons and later on at multiple sites of the central nervous system, the cortex in particular, where it is one of the most highly transcribed Rgs genes. Rgs4^lacZ/lacZ mice had normal neural development and were viable and fertile. Behavioral testing on mutant adults revealed subtle sensorimotor deficits but, so far, supported neither the proposed status of Rgs4 as a schizophrenia susceptibility gene (by showing intact prepulse inhibition in the mutants) nor (unlike another member of the Rgs family, Rgs9) a role of Rgs4 in the acute or chronic response to opioids.

Original language	English
Pages (from-to)	4221-4228
Number of pages	8
Journal	Molecular and Cellular Biology
Volume	25
Issue number	10
DOIs	https://doi.org/10.1128/MCB.25.10.4221-4228.2005
State	Published - May 2005

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1128/MCB.25.10.4221-4228.2005

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title = "Generation and characterization of Rgs4 mutant mice",

abstract = "RGS proteins are negative regulators of signaling through heterotrimeric G protein-coupled receptors and, as such, are in a position to regulate a plethora of biological phenomena. However, those have just begun to be explored in vivo. Here, we describe a mouse line deficient for Rgs4, a gene normally expressed early on in discrete populations of differentiating neurons and later on at multiple sites of the central nervous system, the cortex in particular, where it is one of the most highly transcribed Rgs genes. Rgs4lacZ/lacZ mice had normal neural development and were viable and fertile. Behavioral testing on mutant adults revealed subtle sensorimotor deficits but, so far, supported neither the proposed status of Rgs4 as a schizophrenia susceptibility gene (by showing intact prepulse inhibition in the mutants) nor (unlike another member of the Rgs family, Rgs9) a role of Rgs4 in the acute or chronic response to opioids.",

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T1 - Generation and characterization of Rgs4 mutant mice

AU - Grillet, Nicolas

AU - Pattyn, Alexandre

AU - Contet, Candice

AU - Kieffer, Brigitte L.

AU - Goridis, Christo

AU - Brunet, Jean François

PY - 2005/5

Y1 - 2005/5

N2 - RGS proteins are negative regulators of signaling through heterotrimeric G protein-coupled receptors and, as such, are in a position to regulate a plethora of biological phenomena. However, those have just begun to be explored in vivo. Here, we describe a mouse line deficient for Rgs4, a gene normally expressed early on in discrete populations of differentiating neurons and later on at multiple sites of the central nervous system, the cortex in particular, where it is one of the most highly transcribed Rgs genes. Rgs4lacZ/lacZ mice had normal neural development and were viable and fertile. Behavioral testing on mutant adults revealed subtle sensorimotor deficits but, so far, supported neither the proposed status of Rgs4 as a schizophrenia susceptibility gene (by showing intact prepulse inhibition in the mutants) nor (unlike another member of the Rgs family, Rgs9) a role of Rgs4 in the acute or chronic response to opioids.

AB - RGS proteins are negative regulators of signaling through heterotrimeric G protein-coupled receptors and, as such, are in a position to regulate a plethora of biological phenomena. However, those have just begun to be explored in vivo. Here, we describe a mouse line deficient for Rgs4, a gene normally expressed early on in discrete populations of differentiating neurons and later on at multiple sites of the central nervous system, the cortex in particular, where it is one of the most highly transcribed Rgs genes. Rgs4lacZ/lacZ mice had normal neural development and were viable and fertile. Behavioral testing on mutant adults revealed subtle sensorimotor deficits but, so far, supported neither the proposed status of Rgs4 as a schizophrenia susceptibility gene (by showing intact prepulse inhibition in the mutants) nor (unlike another member of the Rgs family, Rgs9) a role of Rgs4 in the acute or chronic response to opioids.

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Generation and characterization of Rgs4 mutant mice

Abstract

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