分泌囊泡 docking 的分子机制。

Molecular mechanism of secretory vesicle docking.

机构信息

Department of Functional Genomics, Center for Neurogenomics and Cognitive Research, Neuroscience Campus Amsterdam, Vrije Universiteit Amsterdam, De Boelelaan 1085, 1081 HV, Amsterdam, The Netherlands.

出版信息

Biochem Soc Trans. 2010 Feb;38(Pt 1):192-8. doi: 10.1042/BST0380192.

DOI:10.1042/BST0380192

PMID:20074058

Abstract

Docking, the stable association of secretory vesicles with the plasma membrane, is considered to be the necessary first step before vesicles gain fusion-competence, but it is unclear how vesicles dock. In adrenal medullary chromaffin cells, access of secretory vesicles to docking sites is controlled by dense F-actin (filamentous actin) beneath the plasma membrane. Recently, we found that, in the absence of Munc18-1, the number of docked vesicles and the thickness of cortical F-actin are affected. In the present paper, I discuss the possible mechanism by which Munc18-1 modulates cortical F-actin and how it orchestrates the docking machinery via an interaction with syntaxin-1. Finally, a comparison of Munc18's role in embryonic mouse and adult bovine chromaffin cell model systems will be made to clarify observed differences in cortical F-actin as well as docking phenotypes.

摘要

docking，即分泌囊泡与质膜的稳定结合，被认为是囊泡获得融合能力之前的必要步骤，但囊泡如何 dock 还不清楚。在肾上腺髓质嗜铬细胞中，囊泡与 docking 位点的接触受质膜下致密 F-actin（丝状肌动蛋白）的控制。最近，我们发现，在没有 Munc18-1 的情况下，docked 囊泡的数量和皮质 F-actin 的厚度都会受到影响。在本文中，我将讨论 Munc18-1 调节皮质 F-actin 的可能机制，以及它如何通过与 syntaxin-1 的相互作用来协调 docking 机制。最后，将对胚胎小鼠和成年牛嗜铬细胞模型系统中 Munc18 的作用进行比较，以阐明皮质 F-actin 以及 docking 表型观察到的差异。

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分泌囊泡 docking 的分子机制。

Molecular mechanism of secretory vesicle docking.

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