Activity-Dependent Ubiquitination of GABAA Receptors Regulates Their Accumulation at Synaptic Sites

doi:10.1523/JNEUROSCI.3277-07.2007

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The Journal of Neuroscience, November 28, 2007, 27(48):13341-13351; doi:10.1523/JNEUROSCI.3277-07.2007

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Cellular/Molecular
Activity-Dependent Ubiquitination of GABA_A Receptors Regulates Their Accumulation at Synaptic Sites
Richard S. Saliba,¹^,2 Guido Michels,¹^,3 Tija C. Jacob,¹ Menelas N. Pangalos,⁴ and Stephen J. Moss¹^,2
¹Department of Neuroscience, University of Pennsylvania, Philadelphia, Pennsylvania 19104, ²Department of Pharmacology, University College London, London WC1E 6BT, United Kingdom, ³Department of Internal Medicine III, University of Cologne, 50937 Cologne, Germany, and ⁴Wyeth Research, Neuroscience Discovery, Princeton, New Jersey 08852
Correspondence should be addressed to Dr. Stephen J. Moss at the above address. Email: sjmoss{at}mail.med.upenn.edu
GABA_A receptors (GABA_ARs) are the major mediators of fast synapticinhibition in the brain. In neurons, these receptors undergosignificant rates of endocytosis and exocytosis, processes thatregulate both their accumulation at synaptic sites and the efficacyof synaptic inhibition. Here we have evaluated the role thatneuronal activity plays in regulating the residence time ofGABA_ARs on the plasma membrane and their targeting to synapses.Chronic blockade of neuronal activity dramatically increasesthe level of the GABA_AR ubiquitination, decreasing their cellsurface stability via a mechanism dependent on the activityof the proteasome. Coincident with this loss of cell surfaceexpression levels, TTX treatment reduced both the amplitudeand frequency of miniature inhibitory synaptic currents. Conversely,increasing the level of neuronal activity decreases GABA_AR ubiquitinationenhancing their stability on the plasma membrane. Activity-dependentubiquitination primarily acts to reduce GABA_AR stability withinthe endoplasmic reticulum and, thereby, their insertion intothe plasma membrane and subsequent accumulation at synapticsites. Thus, activity-dependent ubiquitination of GABA_ARs andtheir subsequent proteasomal degradation may represent a potentmechanism to regulate the efficacy of synaptic inhibition andmay also contribute to homeostatic synaptic plasticity.

Key words: GABA_A receptor; ubiquitination; synapse; proteasome; membrane insertion; inhibition

Received July 19, 2007; revised Oct. 17, 2007; accepted Oct. 22, 2007.

Correspondence should be addressed to Dr. Stephen J. Moss at the above address. Email: sjmoss{at}mail.med.upenn.edu

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