Expression and localization of RGS9-2/Gβ5/R7BP complex in vivo is set by dynamic control of its constitutive degradation by cellular cysteine proteases

G.R. Anderson; R. Lujan; A. Semenov; M. Pravetoni; E.N. Posokhova; J.H. Song; V. Uversky; C.-K. Chen; K. Wickman; K.A. Martemyanov

doi:10.1523/JNEUROSCI.3884-07.2007

Journal article

Expression and localization of RGS9-2/Gβ5/R7BP complex in vivo is set by dynamic control of its constitutive degradation by cellular cysteine proteases

G.R. Anderson, R. Lujan, A. Semenov, M. Pravetoni, E.N. Posokhova, J.H. Song, V. Uversky, C.-K. Chen, K. Wickman and K.A. Martemyanov

Journal of Neuroscience, Vol.27(51), pp.14117-14127

2007

DOI: https://doi.org/10.1523/JNEUROSCI.3884-07.2007

PMID: 18094251

Abstract

G-protein

Intracellular targeting

Protein degradation

RGS proteins

Signal transduction

Striatum

Amino Acid Sequence

Animals

Cell Membrane

Corpus Striatum

Cysteine Endopeptidases

Gene Expression Regulation, Enzymologic

Lysosomes

Mice

Mice, Knockout

Molecular Sequence Data

RGS Proteins

cysteine proteinase

RGS2 protein

cysteine proteinase

R7BP protein, mouse

regulator of g protein signaling 9

regulator of g-protein signaling 9

RGS protein

unclassified drug

animal experiment

animal tissue

article

controlled study

in vivo study

mouse

neurochemistry

nonhuman

priority journal

protein binding

protein degradation

protein expression

protein localization

amino acid sequence

animal

biosynthesis

cell membrane

Chemistry

comparative study

corpus striatum

enzymology

gene expression regulation

genetics

lysosome

metabolism

molecular genetics

mouse mutant

physiology

A member of regulator of G-protein signaling family, RGS9-2, is an essential modulator of signaling through neuronal dopamine and opioid G-protein-coupled receptors. Recent findings indicate that the abundance of RGS9-2 determines sensitivity of signaling in the locomotor and reward systems in the striatum. In this study we report the mechanism that sets the concentration of RGS9-2 in vivo, thus controlling G-protein signaling sensitivity in the region. We found that RGS9-2 possesses specific degradation determinants which target it for constitutive destruction by lysosomal cysteine proteases. Shielding of these determinants by the binding partner R7 binding-protein (R7BP) controls RGS9-2 expression at the posttranslational level. In addition, binding to R7BP in neurons targets RGS9-2 to the specific intracellular compartment, the postsynaptic density. Implementation of this mechanism throughout ontogenetic development ensures expression of RGS9-2/type 5 G-protein β subunit/R7BP complexes at postsynaptic sites in unison with increased signaling demands at mature synapses. Copyright © 2007 Society for Neuroscience.

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Title: Expression and localization of RGS9-2/Gβ5/R7BP complex in vivo is set by dynamic control of its constitutive degradation by cellular cysteine proteases
Creators: G.R. Anderson - University of Minnesota
R. Lujan - University of Castilla-La Mancha
A. Semenov - University of Minnesota
M. Pravetoni - University of Minnesota
E.N. Posokhova - Twin Cities Orthopedics
J.H. Song - University of Minnesota
V. Uversky - Indiana University
C.-K. Chen - Virginia Commonwealth University
K. Wickman - University of Minnesota
K.A. Martemyanov - University of Minnesota
Publication Details: Journal of Neuroscience, Vol.27(51), pp.14117-14127
Grant note: NEI NIH HHS: R01 EY018139, EY018139, EY013811 NIDA NIH HHS: DA 011806, DA021743, P50 DA011806, R01 DA021743 NIMH NIH HHS: MH61933, R01 MH061933
Comment: Export Date: 24 October 2025; Cited By: 55; CODEN: JNRSD
Academic Unit: Physiology and Biophysics Research; Miller School of Medicine
Resource Type: Journal article
PMID: 18094251
Record Identifier: 991032828878302976