Literature DB >> 21745643

S-nitrosylation and S-palmitoylation reciprocally regulate synaptic targeting of PSD-95.

Gary P H Ho1, Balakrishnan Selvakumar, Jun Mukai, Lynda D Hester, Yuxuan Wang, Joseph A Gogos, Solomon H Snyder.   

Abstract

PSD-95, a principal scaffolding component of the postsynaptic density, is targeted to synapses by palmitoylation, where it couples NMDA receptor stimulation to production of nitric oxide (NO) by neuronal nitric oxide synthase (nNOS). Here, we show that PSD-95 is physiologically S-nitrosylated. We identify cysteines 3 and 5, which are palmitoylated, as sites of nitrosylation, suggesting a competition between these two modifications. In support of this hypothesis, physiologically produced NO inhibits PSD-95 palmitoylation in granule cells of the cerebellum, decreasing the number of PSD-95 clusters at synaptic sites. Further, decreased palmitoylation, as seen in heterologous cells treated with 2-bromopalmitate or in ZDHHC8 knockout mice deficient in a PSD-95 palmitoyltransferase, results in increased PSD-95 nitrosylation. These data support a model in which NMDA-mediated production of NO regulates targeting of PSD-95 to synapses via mutually competitive cysteine modifications. Thus, differential modification of cysteines may represent a general paradigm in signal transduction.
Copyright © 2011 Elsevier Inc. All rights reserved.

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Year:  2011        PMID: 21745643      PMCID: PMC3181141          DOI: 10.1016/j.neuron.2011.05.033

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  50 in total

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7.  S-Palmitoylation of the sodium channel Nav1.6 regulates its activity and neuronal excitability.

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Review 8.  Exploring protein lipidation with chemical biology.

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