发育中的树突中突触后致密物的快速形成与重塑。

Rapid formation and remodeling of postsynaptic densities in developing dendrites.

作者信息

Marrs G S, Green S H, Dailey M E

机构信息

Department of Biological Sciences, 335 Biology Building, University of Iowa, Iowa City, Iowa 52242, USA.

出版信息

Nat Neurosci. 2001 Oct;4(10):1006-13. doi: 10.1038/nn717.

DOI:10.1038/nn717

PMID:11574832

Abstract

The dynamics of postsynaptic density (PSD) formation and remodeling were investigated in live developing hippocampal tissue slices. Time lapse imaging of transfected neurons expressing GFP-tagged PSD95, a prominent PSD protein, revealed that up to 40% of PSDs in developing dendrites are structurally dynamic; they rapidly (<15 min) appear or disappear, but also grow, shrink and move within shafts and spines. New spines containing PSDs were formed by conversion of dynamic filopodia-like spine precursors in which PSDs appeared de novo, or by direct extension of spines or spine precursors carrying preformed PSDs from the shaft. PSDs are therefore highly dynamic structures that can undergo rapid structural alteration within dendrite shafts, spines and spine precursors, permitting rapid formation and remodeling of synaptic connections in developing CNS tissues.

摘要

在发育中的海马组织切片中，研究了突触后致密区（PSD）形成和重塑的动力学。对表达绿色荧光蛋白标记的PSD95（一种突出的PSD蛋白）的转染神经元进行延时成像，结果显示，发育中的树突中高达40%的PSD在结构上是动态的；它们迅速（<15分钟）出现或消失，也会在轴突和棘内生长、收缩和移动。含有PSD的新棘是由动态丝状伪足样棘前体转化形成的，其中PSD从头出现，或者由携带预先形成的PSD的棘或棘前体从轴突直接延伸形成。因此，PSD是高度动态的结构，可以在树突轴、棘和棘前体中快速进行结构改变，从而在发育中的中枢神经系统组织中实现突触连接的快速形成和重塑。

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发育中的树突中突触后致密物的快速形成与重塑。

Rapid formation and remodeling of postsynaptic densities in developing dendrites.

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