ALG-2 在体外抑制 COPII 出芽并稳定 Sec23/Sec31A 复合物。

ALG-2 attenuates COPII budding in vitro and stabilizes the Sec23/Sec31A complex.

机构信息

Department of Biology, University of Copenhagen, Copenhagen, Denmark.

出版信息

PLoS One. 2013 Sep 19;8(9):e75309. doi: 10.1371/journal.pone.0075309. eCollection 2013.

DOI:10.1371/journal.pone.0075309

PMID:24069399

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3777911/

Abstract

Coated vesicles mediate the traffic of secretory and membrane cargo proteins from the endoplasmic reticulum (ER) to the Golgi apparatus. The coat protein complex (COPII) involved in vesicle budding is constituted by a GTPase, Sar1, the inner coat components of Sec23/Sec24 and the components of the outer coat Sec13/Sec31A. The Ca(2+)-binding protein ALG-2 was recently identified as a Sec31A binding partner and a possible link to Ca(2+) regulation of COPII vesicle budding. Here we show that ALG-2/Ca(2+) is capable of attenuating vesicle budding in vitro through interaction with an ALG-2 binding domain in the proline rich region of Sec31A. Binding of ALG-2 to Sec31A and inhibition of COPII vesicle budding is furthermore dependent on an intact Ca(2+)-binding site at EF-hand 1 of ALG-2. ALG-2 increased recruitment of COPII proteins Sec23/24 and Sec13/31A to artificial liposomes and was capable of mediating binding of Sec13/31A to Sec23. These results introduce a regulatory role for ALG-2/Ca(2+) in COPII tethering and vesicle budding.

摘要

包被小泡介导从内质网 (ER) 到高尔基体的分泌和膜货物蛋白的运输。参与小泡出芽的被膜蛋白复合物 (COPII) 由 GTPase Sar1、Sec23/Sec24 的内被膜成分和 Sec13/Sec31A 的外被膜成分构成。最近发现钙结合蛋白 ALG-2 是 Sec31A 的结合伴侣，并且可能与 COPII 小泡出芽的 Ca2+ 调节有关。在这里，我们显示 ALG-2/Ca2+ 通过与 Sec31A 富含脯氨酸区域的 ALG-2 结合域相互作用，能够在体外减弱小泡出芽。ALG-2 与 Sec31A 的结合和 COPII 小泡出芽的抑制进一步依赖于 ALG-2 的 EF 手 1 处完整的 Ca2+ 结合位点。ALG-2 增加了 COPII 蛋白 Sec23/24 和 Sec13/31A 对人工脂质体的募集，并能够介导 Sec13/31A 与 Sec23 的结合。这些结果表明 ALG-2/Ca2+ 在 COPII 系绳和小泡出芽中具有调节作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3d7f/3777911/aacea69ec103/pone.0075309.g001.jpg

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ALG-2 在体外抑制 COPII 出芽并稳定 Sec23/Sec31A 复合物。

ALG-2 attenuates COPII budding in vitro and stabilizes the Sec23/Sec31A complex.

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