The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.

The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.

Ataxia represents a pathological coordination failure that often involves functional disturbances in cerebellar circuits. Purkinje cells (PCs) characterize the only output neurons of the cerebellar cortex and critically participate in regulating motor coordination. Although different genetic mutatio...

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Main Authors: Corinna Lappe-Siefke, Sven Loebrich, Wulf Hevers, Oliver B Waidmann, Michaela Schweizer, Susanne Fehr, Jean-Marc Fritschy, Ivan Dikic, Jens Eilers, Scott M Wilson, Matthias Kneussel
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2009-09-01
Series:PLoS Genetics
Online Access:http://europepmc.org/articles/PMC2744266?pdf=render
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spelling doaj-30f7a41463874c6fb94e8bfd41add2f82020-11-25T02:49:24ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042009-09-0159e100063110.1371/journal.pgen.1000631The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.Corinna Lappe-SiefkeSven LoebrichWulf HeversOliver B WaidmannMichaela SchweizerSusanne FehrJean-Marc FritschyIvan DikicJens EilersScott M WilsonMatthias KneusselAtaxia represents a pathological coordination failure that often involves functional disturbances in cerebellar circuits. Purkinje cells (PCs) characterize the only output neurons of the cerebellar cortex and critically participate in regulating motor coordination. Although different genetic mutations are known that cause ataxia, little is known about the underlying cellular mechanisms. Here we show that a mutated ax(J) gene locus, encoding the ubiquitin-specific protease 14 (Usp14), negatively influences synaptic receptor turnover. Ax(J) mouse mutants, characterized by cerebellar ataxia, display both increased GABA(A) receptor (GABA(A)R) levels at PC surface membranes accompanied by enlarged IPSCs. Accordingly, we identify physical interaction of Usp14 and the GABA(A)R alpha1 subunit. Although other currently unknown changes might be involved, our data show that ubiquitin-dependent GABA(A)R turnover at cerebellar synapses contributes to ax(J)-mediated behavioural impairment.http://europepmc.org/articles/PMC2744266?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Corinna Lappe-Siefke
Sven Loebrich
Wulf Hevers
Oliver B Waidmann
Michaela Schweizer
Susanne Fehr
Jean-Marc Fritschy
Ivan Dikic
Jens Eilers
Scott M Wilson
Matthias Kneussel
spellingShingle Corinna Lappe-Siefke
Sven Loebrich
Wulf Hevers
Oliver B Waidmann
Michaela Schweizer
Susanne Fehr
Jean-Marc Fritschy
Ivan Dikic
Jens Eilers
Scott M Wilson
Matthias Kneussel
The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.
PLoS Genetics
author_facet Corinna Lappe-Siefke
Sven Loebrich
Wulf Hevers
Oliver B Waidmann
Michaela Schweizer
Susanne Fehr
Jean-Marc Fritschy
Ivan Dikic
Jens Eilers
Scott M Wilson
Matthias Kneussel
author_sort Corinna Lappe-Siefke
title The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.
title_short The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.
title_full The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.
title_fullStr The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.
title_full_unstemmed The ataxia (axJ) mutation causes abnormal GABAA receptor turnover in mice.
title_sort ataxia (axj) mutation causes abnormal gabaa receptor turnover in mice.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2009-09-01
description Ataxia represents a pathological coordination failure that often involves functional disturbances in cerebellar circuits. Purkinje cells (PCs) characterize the only output neurons of the cerebellar cortex and critically participate in regulating motor coordination. Although different genetic mutations are known that cause ataxia, little is known about the underlying cellular mechanisms. Here we show that a mutated ax(J) gene locus, encoding the ubiquitin-specific protease 14 (Usp14), negatively influences synaptic receptor turnover. Ax(J) mouse mutants, characterized by cerebellar ataxia, display both increased GABA(A) receptor (GABA(A)R) levels at PC surface membranes accompanied by enlarged IPSCs. Accordingly, we identify physical interaction of Usp14 and the GABA(A)R alpha1 subunit. Although other currently unknown changes might be involved, our data show that ubiquitin-dependent GABA(A)R turnover at cerebellar synapses contributes to ax(J)-mediated behavioural impairment.
url http://europepmc.org/articles/PMC2744266?pdf=render
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