GEF-effector interactions.

Cellular logistics Pub Date : 2014-05-01 eCollection Date: 2014-04-01 DOI:10.4161/21592780.2014.943616
Catherine L Jackson
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引用次数: 8

Abstract

Members of the Arf family of small GTP-binding proteins, or GTPases, are activated by guanine nucleotide exchange factors (GEFs) that catalyze GDP release from their substrate Arf, allowing GTP to bind. In the secretory pathway, Arf1 is first activated by GBF1 at the cis-Golgi, then by BIG1 and BIG2 at the trans-Golgi and trans-Golgi network (TGN). Upon activation, Arf1-GTP interacts with effectors such as coat complexes, and is able to recruit different coat complexes to different membrane sites in cells. The COPI coat is primarily recruited to cis-Golgi membranes, whereas other coats, such as AP-1/clathrin, and GGA/clathrin, are recruited to the trans-Golgi and the TGN. Although Arf1-GTP is required for stable association of these various coats to membranes, and is sufficient in vitro, other molecules, such as vesicle cargo and coat receptors on the membrane, contribute to specificity of coat recruitment in cells. Another mechanism to achieve specificity is interaction of effectors such as coats with the GEF itself, which would increase the concentration of a given coat in proximity to the site where Arf is activated, thus favoring its recruitment. This interaction between a GEF and an effector could also provide a mechanism for spatial organization of vesicle budding sites, similar to that described for Cdc42-mediated establishment of polarity sites such as the emerging bud in yeast. Another factor affecting the amount of freely diffusible Arf1-GTP in membranes is the GEF(s) themselves acting as effectors. Sec7p, the yeast homolog of mammalian BIG1 and BIG2, and Arno/cytohesin 2, a PM-localized Arf1 GEF, both bind to Arf1-GTP. This binding to the products of the exchange reaction establishes a positive feedback loop for activation.

GEF-effector交互。
小GTP结合蛋白Arf家族的成员,或GTP酶,被鸟嘌呤核苷酸交换因子(gef)激活,该因子催化GDP从其底物Arf释放,使GTP结合。在分泌途径中,Arf1首先被顺式高尔基体上的GBF1激活,然后被反式高尔基和反式高尔基网络(TGN)上的BIG1和BIG2激活。激活后,Arf1-GTP与衣壳复合物等效应物相互作用,并能够将不同的衣壳复合物招募到细胞的不同膜位点。COPI外壳主要被募集到顺式高尔基膜上,而其他外壳,如AP-1/网格蛋白和GGA/网格蛋白,则被募集到反式高尔基膜和TGN上。虽然Arf1-GTP是这些不同的被膜与膜稳定结合所必需的,并且在体外是足够的,但其他分子,如囊泡货物和膜上的被膜受体,有助于细胞内被膜募集的特异性。另一种实现特异性的机制是效应物(如衣壳)与GEF本身的相互作用,这将增加Arf被激活位点附近特定衣壳的浓度,从而有利于其招募。GEF和效应物之间的相互作用也为囊泡出芽位点的空间组织提供了一种机制,类似于cdc42介导的极性位点的建立,如酵母的出芽。影响膜中自由扩散的Arf1-GTP数量的另一个因素是GEF(s)本身作为效应器。哺乳动物BIG1和BIG2的酵母同源物Sec7p和pm定位的Arf1 GEF Arno/cytohesin 2都与Arf1- gtp结合。这种与交换反应产物的结合为激活建立了一个正反馈回路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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