脂双层结构缺陷与膜电荷调控 RAB GTPase 招募。

Lipid packing defects and membrane charge control RAB GTPase recruitment.

机构信息

Institut Curie, Paris Sciences et Lettres Research University, Sorbonne Université, CNRS UMR144, Paris, France.

Laboratoire Physico Chimie, Institut Curie, Paris Sciences et Lettres Research University, Sorbonne Université, CNRS UMR168, Paris, France.

出版信息

Traffic. 2018 Jul;19(7):536-545. doi: 10.1111/tra.12568. Epub 2018 Apr 6.

DOI:10.1111/tra.12568

PMID:29573133

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6032855/

Abstract

Specific intracellular localization of RAB GTPases has been reported to be dependent on protein factors, but the contribution of the membrane physicochemical properties to this process has been poorly described. Here, we show that three RAB proteins (RAB1/RAB5/RAB6) preferentially bind in vitro to disordered and curved membranes, and that this feature is uniquely dependent on their prenyl group. Our results imply that the addition of a prenyl group confers to RAB proteins, and most probably also to other prenylated proteins, the ability to sense lipid packing defects induced by unsaturated conical-shaped lipids and curvature. Consistently, RAB recruitment increases with the amount of lipid packing defects, further indicating that these defects drive RAB membrane targeting. Membrane binding of RAB35 is also modulated by lipid packing defects but primarily dependent on negatively charged lipids. Our results suggest that a balance between hydrophobic insertion of the prenyl group into lipid packing defects and electrostatic interactions of the RAB C-terminal region with charged membranes tunes the specific intracellular localization of RAB proteins.

摘要

已经有报道称，RAB GTPases 的特定细胞内定位依赖于蛋白质因子，但这一过程中膜的物理化学性质的贡献还描述得很差。在这里，我们表明三种 RAB 蛋白（RAB1/RAB5/RAB6）优先在体外与无序和弯曲的膜结合，而这一特征独特地依赖于它们的 prenyl 基团。我们的结果表明，prenyl 基团的添加赋予了 RAB 蛋白（很可能也赋予了其他 prenylated 蛋白）感知由不饱和锥形脂质和曲率引起的脂质堆积缺陷的能力。一致地，RAB 的募集随着脂质堆积缺陷的增加而增加，这进一步表明这些缺陷驱动 RAB 膜靶向。RAB35 的膜结合也受到脂质堆积缺陷的调节，但主要依赖于带负电荷的脂质。我们的结果表明，prenyl 基团插入脂质堆积缺陷的疏水性和 RAB C 末端区域与带电膜的静电相互作用之间的平衡调节了 RAB 蛋白的特定细胞内定位。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0ec8/6032855/e70fff4e0568/TRA-19-536-g007.jpg

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脂双层结构缺陷与膜电荷调控 RAB GTPase 招募。

Lipid packing defects and membrane charge control RAB GTPase recruitment.

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