PI4P和block -1将内体膜重塑成小管

R. Jani, Aurélie Di Cicco, Tal Keren-Kaplan, Sílvia Vale-Costa, Daniel Hamaoui, I. Hurbain, Feng-Ching Tsai, Mathilde Dimarco, Anne-Sophie Macé, Yueyao Zhu, M. Amorim, P. Bassereau, J. Bonifacino, A. Subtil, M. Marks, Daniel Lévy, G. Raposo, C. Delevoye
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引用次数: 6

摘要

细胞内运输是由源自供体细胞器的膜重塑的运输载体介导的。管状载体在膜脂和蛋白向受体细胞器的转运中起着重要作用。然而,脂质和蛋白质如何在载体上施加管状几何结构尚不完全清楚。通过利用细胞和体外膜系统不同尺度的成像方法,我们发现磷脂酰肌醇-4-磷酸(PI4P)和溶酶体相关细胞器复合物1 (block -1)的生物发生控制着循环内体小管的形成、稳定性和功能。II型pi4激酶产生PI4P是形成新生弯曲小管所需的,通过结合稳定和延长小管的block -1。PI4P/ block -1模块的膜重塑不仅在内体货物的再循环中起作用,而且在细胞内病原体(如衣原体细菌和流感病毒)的生命周期中起作用。这项研究证明了磷脂和蛋白质复合物如何协调作为一个最小的机制,将细胞膜重塑成功能管。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PI4P and BLOC-1 remodel endosomal membranes into tubules
Intracellular trafficking is mediated by transport carriers that originate by membrane remodeling from donor organelles. Tubular carriers play major roles in the flux of membrane lipids and proteins to acceptor organelles. However, how lipids and proteins impose a tubular geometry on the carriers is incompletely understood. By exploiting imaging approaches at different scales on cells and in vitro membrane systems, we show that phosphatidylinositol-4-phosphate (PI4P) and biogenesis of lysosome-related organelles complex 1 (BLOC-1) govern the formation, stability and functions of recycling endosomal tubules. Endosomal PI4P production by type II PI4-kinases is needed to form nascent curved tubules through binding of BLOC-1 that stabilize and elongate them. Membrane remodeling by the PI4P/ BLOC-1 module functions not only in the recycling of endosomal cargoes, but also in the lifecycles of intracellular pathogens such as Chlamydia bacteria and influenza virus. This study demonstrates how a phospholipid and a protein complex coordinate as a minimal machinery to remodel cellular membranes into functional tubes.
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