Targeting of RGS7/Gβ5 to the dendritic tips of ON-bipolar cells is independent of its association with membrane anchor R7BP

Y. Cao; H. Song; H. Okawa; A.P. Sampath; M. Sokolov; K.A. Martemyanov

doi:10.1523/JNEUROSCI.3282-08.2008

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Targeting of RGS7/Gβ5 to the dendritic tips of ON-bipolar cells is independent of its association with membrane anchor R7BP

Journal article

Open access

Targeting of RGS7/Gβ5 to the dendritic tips of ON-bipolar cells is independent of its association with membrane anchor R7BP

Y. Cao, H. Song, H. Okawa, A.P. Sampath, M. Sokolov and K.A. Martemyanov

Journal of Neuroscience, Vol.28(41), pp.10443-10449

2008

DOI: https://doi.org/10.1523/JNEUROSCI.3282-08.2008

PMID: 18842904

Abstract

G-protein

Intracellular targeting

Knock-out mice

Retina

RGS proteins

Signal transduction

Animals

Cell Membrane

Dendrites

GTP-Binding Protein beta Subunits

Mice

Mice, Knockout

Retinal Bipolar Cells

RGS Proteins

Rods (Retina)

Synapses

Tissue Distribution

binding protein

binding protein r7

guanine nucleotide binding protein beta subunit

guanine nucleotide binding protein beta subunit 5

RGS protein

RGS7 protein

unclassified drug

Gnb5 protein, mouse

R7BP protein, mouse

Rgs7 protein, mouse

animal cell

animal experiment

animal tissue

article

cell membrane

complex formation

controlled study

dendrite

mouse

nonhuman

priority journal

protein expression

protein localization

protein targeting

retina bipolar ganglion cell

animal

dendrite

metabolism

mouse mutant

physiology

retina rod

synapse

tissue distribution

Complexes of regulator of G-protein signaling (RGS) proteins with G-protein β5 (Gβ5) subunits are essential components of signaling pathways that regulate the temporal characteristics of light-evoked responses in vertebrate retinal photoreceptors and ON-bipolar cells. Recent studies have found that RGS/Gβ5 complexes bind to a new family of adapter proteins, R9AP (RGS9 anchor protein) and R7 family binding protein (R7BP), that in case of the RGS9/Gβ5 complex were shown to determine its precise subcellular targeting to either the outer segment of photoreceptors or postsynaptic structures of striatal neurons, respectively. In this study, we establish that another trimeric complex consisting of RGS7, Gβ5, and R7BP subunits is specifically targeted to the dendritic tips of retinal bipolar cells. However, examination of the mechanisms of complex targeting in vivo surprisingly revealed that the delivery of RGS7/Gβ5 to the dendrites of ON-bipolar cells occurs independently of its association with R7BP. These findings provide a new mechanism for adapter-independent targeting of RGS/Gβ5 complexes. Copyright © 2008 Society for Neuroscience.

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Collaboration types: Domestic collaboration
Citation topics: 1 Clinical & Life Sciences; 1.159 Membrane Channels & Receptors; 1.159.426 GPCR Signaling
Web Of Science research areas: Neurosciences
ESI research areas: Neuroscience & Behavior

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Title: Targeting of RGS7/Gβ5 to the dendritic tips of ON-bipolar cells is independent of its association with membrane anchor R7BP
Creators: Y. Cao - University of Minnesota
H. Song - University of Minnesota
H. Okawa
A.P. Sampath - University of Southern California
M. Sokolov - West Virginia University
K.A. Martemyanov - University of Minnesota
Publication Details: Journal of Neuroscience, Vol.28(41), pp.10443-10449
Grant note: National Institutes of Health (NIH): EY018139 NIH/National Center for Research Resources: 2P20 RR15574 NIH: EY017606 Karl Kirchgessner Foundation Vision Research Grant
This work was supported by National Institutes of Health (NIH) Grant EY018139 (K. A. M.), NIH/National Center for Research Resources 2P20 RR15574 Center of Biomedical Research Excellence in Sensory Neuroscience (M. S.), NIH Grant EY017606 (A. P. S.), and a Karl Kirchgessner Foundation Vision Research Grant (A. P. S.). We thank Dr. William Simonds (NIH) for the generous gift of anti-RGS7, anti-G beta 5, and anti-R7BP antibodies and Dr. Jason Chen (Virginia Commonwealth University, Richmond, VA) for providing G beta 5 knock-out mice. We also thank Gilbert Ahlstrend and Mark Sanders at the Imaging Center, University of Minnesota, for the help with retina plastic sections.
Comment: Export Date: 24 October 2025; Cited By: 44; CODEN: JNRSD
Academic Unit: Physiology and Biophysics Research; Miller School of Medicine
Resource Type: Journal article
PMID: 18842904
Record Identifier: 991032828884102976