MON2 Guides Wntless Transport to the Golgi through Recycling Endosomes.

IF 2 4区生物学 Q4 CELL BIOLOGY

Cell structure and function Pub Date : 2020-06-13 Epub Date: 2020-05-12 DOI:10.1247/csf.20012

Shen-Bao Zhao, Neta Dean, Xiao-Dong Gao, Morihisa Fujita

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引用次数: 12

Abstract

Endocytic cargos are transported to recycling endosomes (RE) but how these sorting platforms are generated is not well understood. Here we describe our biochemical and live imaging studies of the conserved MON2-DOPEY complex in RE formation. MON2 mainly co-localized with RE marker RAB4B in peripheral dots and perinuclear region. The peripheral RE approached, interacted with, and separated from sorting nexin 3 (SNX3)-positive early endosomes (EE). Membrane-bound DOPEY2 was recruited to RE dependent upon MON2 expression, and showed binding abilities to kinesin and dynein/dynactin motor proteins. MON2-knockout impaired segregation of RE from EE and led to a decreased tubular recycling endosomal network, whereas RE was accumulated at perinuclear regions in DOPEY2-knockout cells. MON2 depletion also impaired intracellular transferrin receptor recycling, as well as retrograde transport of Wntless during its passage through RE before delivery from EE to the Golgi. Together, these data suggest that the MON2 drives separation of RE from EE and is required for efficient transport of endocytic cargo molecules.Key words: membrane trafficking, MON2, recycling endosomes, Wntless.

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MON2 引导无 Wnt 通过回收内体向高尔基体运输

内噬货物被运送到回收核内体(RE)，但这些分类平台是如何产生的还不是很清楚。在这里，我们描述了我们的生化和实时成像研究保守的MON2-DOPEY复合物在RE形成。MON2主要与RE标记物RAB4B共定位于外周点和核周区域。外周RE接近，相互作用，并从分选连接蛋白3 (SNX3)阳性的早期内体(EE)分离。膜结合的DOPEY2被招募到RE依赖于MON2的表达，并显示出与运动蛋白和动力蛋白/动力蛋白的结合能力。mon2敲除破坏了RE与EE的分离，导致小管循环内体网络减少，而在dopey2敲除细胞中，RE在核周区域积累。MON2的消耗也会破坏细胞内转铁蛋白受体的循环，以及Wntless在从EE传递到高尔基体之前通过RE的逆行运输。综上所述，这些数据表明，MON2驱动稀土与EE的分离，并且是有效运输内吞货物分子所必需的。关键词:膜运输，MON2，回收核内体，Wntless。

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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来源期刊

Cell structure and function 生物-细胞生物学

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Cell Structure and Function is a fully peer-reviewed, fully Open Access journal. As the official English-language journal of the Japan Society for Cell Biology, it is published continuously online and biannually in print. Cell Structure and Function publishes important, original contributions in all areas of molecular and cell biology. The journal welcomes the submission of manuscripts on research areas such as the cell nucleus, chromosomes, and gene expression; the cytoskeleton and cell motility; cell adhesion and the extracellular matrix; cell growth, differentiation and death; signal transduction; the protein life cycle; membrane traffic; and organelles.