SWIP 介导 WASH 复合物的独立于 retromer 的膜募集。

SWIP mediates retromer-independent membrane recruitment of the WASH complex.

机构信息

Department of Cell Biology, Faculty of Science, Charles University, Viničná 7, Prague, Czech Republic.

出版信息

Traffic. 2023 May;24(5):216-230. doi: 10.1111/tra.12884. Epub 2023 Mar 30.

Abstract

The pentameric WASH complex facilitates endosomal protein sorting by activating Arp2/3, which in turn leads to the formation of F-actin patches specifically on the endosomal surface. It is generally accepted that WASH complex attaches to the endosomal membrane via the interaction of its subunit FAM21 with the retromer subunit VPS35. However, we observe the WASH complex and F-actin present on endosomes even in the absence of VPS35. We show that the WASH complex binds to the endosomal surface in both a retromer-dependent and a retromer-independent manner. The retromer-independent membrane anchor is directly mediated by the subunit SWIP. Furthermore, SWIP can interact with a number of phosphoinositide species. Of those, our data suggest that the interaction with phosphatidylinositol-3,5-bisphosphate (PI(3,5)P ) is crucial to the endosomal binding of SWIP. Overall, this study reveals a new role of the WASH complex subunit SWIP and highlights the WASH complex as an independent, self-sufficient trafficking regulator.

摘要

五聚体 WASH 复合物通过激活 Arp2/3 促进内体蛋白分选，进而导致 F- 肌动蛋白斑块特异性地在内体表面形成。通常认为 WASH 复合物通过其亚基 FAM21 与逆行运输体亚基 VPS35 的相互作用附着在内体膜上。然而，我们观察到即使在没有 VPS35 的情况下，WASH 复合物和 F- 肌动蛋白也存在于内体上。我们表明，WASH 复合物以依赖逆行运输体和不依赖逆行运输体的方式结合在内体表面。不依赖逆行运输体的膜锚直接由亚基 SWIP 介导。此外，SWIP 可以与多种磷酸肌醇物种相互作用。在这些物种中，我们的数据表明与磷脂酰肌醇-3,5-二磷酸（PI(3,5)P ）的相互作用对于 SWIP 在内体上的结合至关重要。总的来说，这项研究揭示了 WASH 复合物亚基 SWIP 的新作用，并强调了 WASH 复合物作为一种独立的、自给自足的运输调节剂的重要性。

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SWIP 介导 WASH 复合物的独立于 retromer 的膜募集。

SWIP mediates retromer-independent membrane recruitment of the WASH complex.

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