Toca-1与神经Wiskott-Aldrich综合征蛋白复合物将丝状伪足的形成与内吞作用联系起来。

The Toca-1-N-WASP complex links filopodial formation to endocytosis.

作者信息

Bu Wenyu, Chou Ai Mei, Lim Kim Buay, Sudhaharan Thankiah, Ahmed Sohail

机构信息

Institute of Medical Biology, 8A Biomedical Grove, Immunos, Singapore 138665.

出版信息

J Biol Chem. 2009 Apr 24;284(17):11622-36. doi: 10.1074/jbc.M805940200. Epub 2009 Feb 11.

DOI:10.1074/jbc.M805940200

PMID:19213734

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2670167/

Abstract

The transducer of Cdc42-dependent actin assembly (Toca-1)-N-WASP complex was isolated as an essential cofactor for Cdc42-driven actin polymerization in vitro. Toca-1 consists of an N-terminal F-BAR domain, followed by a Cdc42 binding site (HR1 domain) and an SH3 domain, (the N-WASP interacting site). N-WASP is an activator of actin nucleation through the Arp2/3 complex. The aim of the present study was to investigate the cellular function of the Toca-1-N-WASP complex. We report that Toca-1 induces filopodia and neurites as does N-WASP in N1E115 neuroblastoma cells. Toca-1 requires the F-BAR domain, Cdc42 binding site, and SH3 domain to induce filopodia. Toca-1 and N-WASP both require each other to induce filopodia. The expression of Toca-1 and N-WASP affects the distribution, size, and number of Rab5 positive membranes. Toca-1 interacts directly with N-WASP in filopodia and Rab5 membrane as seen by Forster resonance energy transfer. Thus the Toca-1-N-WASP complex localizes to and induces the formation of filopodia and endocytic vesicles. Last, three inhibitors of endocytosis, Dynamin-K44A, Eps15Delta95/295, and clathrin heavy chain RNA interference, block Toca-1-induced filopodial formation. Taken together, these data suggest that the Toca-1-N-WASP complex can link filopodial formation to endocytosis.

摘要

作为Cdc42驱动的肌动蛋白体外聚合的必需辅助因子，Cdc42依赖性肌动蛋白组装的转导蛋白（Toca-1）-N-WASP复合物被分离出来。Toca-1由一个N端F-BAR结构域组成，后面跟着一个Cdc42结合位点（HR1结构域）和一个SH3结构域（N-WASP相互作用位点）。N-WASP是通过Arp2/3复合物激活肌动蛋白成核的因子。本研究的目的是探讨Toca-1-N-WASP复合物的细胞功能。我们报告，在N1E115神经母细胞瘤细胞中，Toca-1与N-WASP一样能诱导丝状伪足和神经突的形成。Toca-1需要F-BAR结构域、Cdc42结合位点和SH3结构域来诱导丝状伪足的形成。Toca-1和N-WASP相互依赖才能诱导丝状伪足的形成。Toca-1和N-WASP的表达会影响Rab5阳性膜的分布、大小和数量。通过荧光共振能量转移可以看到，Toca-1在丝状伪足和Rab5膜中直接与N-WASP相互作用。因此，Toca-1-N-WASP复合物定位于丝状伪足并诱导其形成以及内吞小泡的形成。最后，三种内吞作用抑制剂，即动力蛋白-K44A、Eps15Delta95/295和网格蛋白重链RNA干扰，可阻断Toca-1诱导的丝状伪足形成。综上所述，这些数据表明Toca-1-N-WASP复合物可以将丝状伪足的形成与内吞作用联系起来。

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本文引用的文献

Filopodia: molecular architecture and cellular functions.丝状伪足：分子结构与细胞功能

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The Cdc42 effector IRSp53 generates filopodia by coupling membrane protrusion with actin dynamics.Cdc42效应蛋白IRSp53通过将膜突出与肌动蛋白动力学耦合来生成丝状伪足。

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Genome-wide analysis identifies a general requirement for polarity proteins in endocytic traffic.全基因组分析确定了内吞运输中极性蛋白的普遍需求。

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Endocytosis optimizes the dynamic localization of membrane proteins that regulate cortical polarity.内吞作用优化了调节皮层极性的膜蛋白的动态定位。

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