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Cdc42p 在固醇依赖性引发子的液泡膜融合的亚反应中被激活。

Cdc42p is activated during vacuole membrane fusion in a sterol-dependent subreaction of priming.

机构信息

Department of Cell Biology, University of Alberta, Edmonton, Alberta T6G 2H7, Canada.

出版信息

J Biol Chem. 2010 Feb 12;285(7):4298-306. doi: 10.1074/jbc.M109.074609. Epub 2009 Dec 10.

DOI:10.1074/jbc.M109.074609
PMID:20007700
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2836034/
Abstract

Cdc42p is a Rho GTPase that initiates signaling cascades at spatially defined intracellular sites for many cellular functions. We have previously shown that Cdc42p is localized to the yeast vacuole where it initiates actin polymerization during membrane fusion. Here we examine the activation cycle of Cdc42p during vacuole membrane fusion. Expression of either GTP- or GDP-locked Cdc42p mutants caused several morphological defects including enlarged cells and fragmented vacuoles. Stimulation of multiple rounds of fusion enhanced vacuole fragmentation, suggesting that cycles of Cdc42p activation, involving rounds of GTP binding and hydrolysis, are required to propagate Cdc42p signaling. We developed an assay to directly examine Cdc42p activation based on affinity to a probe derived from the p21-activated kinase effector, Ste20p. Cdc42p was rapidly activated during vacuole membrane fusion, which kinetically coincided with priming subreaction. During priming, Sec18p ATPase activity dissociates SNARE complexes and releases Sec17p, however, priming inhibitors such as Sec17p and Sec18p ligands did not block Cdc42p activation. Therefore, Cdc42p activation seems to be a parallel subreaction of priming, distinct from Sec18p activity. Specific mutants in the ergosterol synthesis pathway block both Sec17p release and Cdc42p activation. Taken together, our results define a novel sterol-dependent subreaction of vacuole priming that activates cycles of Cdc42p activity to facilitate membrane fusion.

摘要

Cdc42p 是一种 Rho GTPase,它在许多细胞功能中在空间上确定的细胞内位置引发信号级联。我们之前已经表明,Cdc42p 定位于酵母液泡中,在那里它在膜融合过程中引发肌动蛋白聚合。在这里,我们研究了 Cdc42p 在液泡膜融合过程中的激活循环。表达 GTP 或 GDP 锁定的 Cdc42p 突变体导致多种形态缺陷,包括细胞增大和液泡碎片化。刺激多轮融合增强了液泡碎片化,这表明 Cdc42p 激活的循环,涉及 GTP 结合和水解的循环,是传播 Cdc42p 信号所必需的。我们开发了一种基于与来自 p21 激活激酶效应物 Ste20p 的探针的亲和力的直接检查 Cdc42p 激活的测定法。Cdc42p 在液泡膜融合过程中迅速被激活,其动力学与引发子亚反应一致。在引发过程中,Sec18p ATP 酶活性使 SNARE 复合物解离并释放 Sec17p,然而,引发抑制剂如 Sec17p 和 Sec18p 配体并没有阻断 Cdc42p 的激活。因此,Cdc42p 的激活似乎是引发的平行亚反应,与 Sec18p 活性不同。甾醇合成途径中的特定突变体阻断 Sec17p 释放和 Cdc42p 激活。总之,我们的结果定义了液泡引发的一种新型固醇依赖性亚反应,该反应激活 Cdc42p 活性的循环,以促进膜融合。

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