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活性依赖的棕榈酰化调控SynDIG1的稳定性、定位及功能。

Activity-Dependent Palmitoylation Controls SynDIG1 Stability, Localization, and Function.

作者信息

Kaur Inderpreet, Yarov-Yarovoy Vladimir, Kirk Lyndsey M, Plambeck Kristopher E, Barragan Eden V, Ontiveros Eric S, Díaz Elva

机构信息

Departments of Pharmacology, and.

Physiology and Membrane Biology, University of California Davis School of Medicine, Davis, California 95616.

出版信息

J Neurosci. 2016 Jul 20;36(29):7562-8. doi: 10.1523/JNEUROSCI.4859-14.2016.

DOI:10.1523/JNEUROSCI.4859-14.2016
PMID:27445135
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4951570/
Abstract

UNLABELLED

Synapses are specialized contacts between neurons. Synapse differentiation-induced gene I (SynDIG1) plays a critical role during synapse development to regulate AMPA receptor (AMPAR) and PSD-95 content at excitatory synapses. Palmitoylation regulates the localization and function of many synaptic proteins, including AMPARs and PSD-95. Here we show that SynDIG1 is palmitoylated, and investigate the effects of palmitoylation on SynDIG1 stability and localization. Structural modeling of SynDIG1 suggests that the membrane-associated region forms a three-helical bundle with two cysteine residues located at positions 191 and 192 in the juxta-transmembrane region exposed to the cytoplasm. Site-directed mutagenesis reveals that C191 and C192 are palmitoylated in heterologous cells and positively regulates dendritic targeting in neurons. Like PSD-95, activity blockade in a rat hippocampal slice culture increases SynDIG1 palmitoylation, which is consistent with our prior demonstration that SynDIG1 localization at synapses increases upon activity blockade. These data demonstrate that palmitoylation of SynDIG1 is regulated by neuronal activity, and plays a critical role in regulating its stability and subcellular localization, and thereby its function.

SIGNIFICANCE STATEMENT

Palmitoylation is a reversible post-translation modification that has recently been recognized as playing a critical role in the localization and function of many synaptic proteins. Here we show that activity-dependent palmitoylation of the atypical AMPA receptor auxiliary transmembrane protein SynDIG1 regulates its stability and localization at synapses to regulate function and synaptic strength.

摘要

未标记

突触是神经元之间的特殊连接。突触分化诱导基因I(SynDIG1)在突触发育过程中发挥关键作用,以调节兴奋性突触处的AMPA受体(AMPAR)和PSD-95含量。棕榈酰化调节许多突触蛋白的定位和功能,包括AMPAR和PSD-95。在这里,我们表明SynDIG1被棕榈酰化,并研究了棕榈酰化对SynDIG1稳定性和定位的影响。SynDIG1的结构模型表明,膜相关区域形成一个三螺旋束,两个半胱氨酸残基位于靠近跨膜区域暴露于细胞质的第191和192位。定点诱变显示,C191和C192在异源细胞中被棕榈酰化,并正向调节神经元中的树突靶向。与PSD-95一样,大鼠海马切片培养中的活性阻断增加了SynDIG1的棕榈酰化,这与我们之前的证明一致,即活性阻断后SynDIG1在突触处的定位增加。这些数据表明,SynDIG1的棕榈酰化受神经元活动调节,并在调节其稳定性和亚细胞定位以及其功能方面发挥关键作用。

意义声明

棕榈酰化是一种可逆的翻译后修饰,最近被认为在许多突触蛋白的定位和功能中起关键作用。在这里,我们表明非典型AMPA受体辅助跨膜蛋白SynDIG1的活性依赖性棕榈酰化调节其在突触处的稳定性和定位,以调节功能和突触强度。

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