Arc/Arg3.1 对脊柱结构可塑性的调控。

Regulation of spine structural plasticity by Arc/Arg3.1.

机构信息

Duke Institute for Brain Sciences, Duke University, Durham, NC 27708, USA.

Department of Cell Biology, Duke University Medical Center, Durham, NC 27710, USA.

出版信息

Semin Cell Dev Biol. 2018 May;77:25-32. doi: 10.1016/j.semcdb.2017.09.022. Epub 2017 Sep 22.

DOI:10.1016/j.semcdb.2017.09.022

PMID:28943393

Abstract

Dendritic spines are actin-rich, postsynaptic protrusions that contact presynaptic terminals to form excitatory chemical synapses. These synaptic contacts are widely believed to be the sites of memory formation and information storage, and changes in spine shape are thought to underlie several forms of learning-related plasticity. Both membrane trafficking pathways and the actin cytoskeleton drive activity-dependent structural and functional changes in dendritic spines. A key molecular player in regulating these processes is the activity-regulated cytoskeleton-associated protein (Arc), a protein that has diverse roles in expression of synaptic plasticity. In this review, we highlight important findings that have shaped our understanding of Arc's functions in structural and functional plasticity, as well as Arc's contributions to memory consolidation and disease.

摘要

树突棘是富含肌动蛋白的突触后突起，与突触前末梢接触形成兴奋性化学突触。这些突触连接被广泛认为是记忆形成和信息存储的部位，而棘突形状的变化被认为是几种与学习相关的可塑性的基础。膜运输途径和肌动蛋白细胞骨架都驱动着树突棘的活性依赖性结构和功能变化。调节这些过程的关键分子是活性调节细胞骨架相关蛋白 (Arc)，它在突触可塑性的表达中具有多种作用。在这篇综述中，我们强调了重要的发现，这些发现塑造了我们对 Arc 在结构和功能可塑性中的作用的理解，以及 Arc 对记忆巩固和疾病的贡献。

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Arc/Arg3.1 对脊柱结构可塑性的调控。

Regulation of spine structural plasticity by Arc/Arg3.1.

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