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Palmitoylation of [delta]-catenin by DHHC5 mediates activity-induced synapse plasticity.

Nat Neurosci.. 2014-03;  17(4):522-32
GS Brigidi, Y Sun, D Beccano-Kelly, K Pitman, Mobasser M, Borgland SL, Milnerwood AJ, Bamji SX. Department of Cellular and Physiological Sciences, University of British Columbia, Vancouver, British Columbia, Canada.
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Abstract

Synaptic cadherin adhesion complexes are known to be key regulators of synapse plasticity. However, the molecular mechanisms that coordinate activity-induced modifications in cadherin localization and adhesion and the subsequent changes in synapse morphology and efficacy remain unknown. We demonstrate that the intracellular cadherin binding protein δ-catenin is transiently palmitoylated by DHHC5 after enhanced synaptic activity and that palmitoylation increases δ-catenin-cadherin interactions at synapses. Both the palmitoylation of δ-catenin and its binding to cadherin are required for activity-induced stabilization of N-cadherin at synapses and the enlargement of postsynaptic spines, as well ... More

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