Mitochondria-ER-PM contacts regulate mitochondrial division and PI(4)P distribution.

IF 7.4 1区 生物学 Q1 CELL BIOLOGY Journal of Cell Biology Pub Date : 2024-09-02 Epub Date: 2024-05-23 DOI:10.1083/jcb.202308144
Jason C Casler, Clare S Harper, Antoineen J White, Heidi L Anderson, Laura L Lackner
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Abstract

The mitochondria-ER-cortex anchor (MECA) forms a tripartite membrane contact site between mitochondria, the endoplasmic reticulum (ER), and the plasma membrane (PM). The core component of MECA, Num1, interacts with the PM and mitochondria via two distinct lipid-binding domains; however, the molecular mechanism by which Num1 interacts with the ER is unclear. Here, we demonstrate that Num1 contains a FFAT motif in its C-terminus that interacts with the integral ER membrane protein Scs2. While dispensable for Num1's functions in mitochondrial tethering and dynein anchoring, the FFAT motif is required for Num1's role in promoting mitochondrial division. Unexpectedly, we also reveal a novel function of MECA in regulating the distribution of phosphatidylinositol-4-phosphate (PI(4)P). Breaking Num1 association with any of the three membranes it tethers results in an accumulation of PI(4)P on the PM, likely via disrupting Sac1-mediated PI(4)P turnover. This work establishes MECA as an important regulatory hub that spatially organizes mitochondria, ER, and PM to coordinate crucial cellular functions.

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线粒体-ER-PM接触调节线粒体分裂和PI(4)P分布。
线粒体-内质网-皮质锚(MECA)形成了线粒体、内质网和质膜之间的三方膜接触点。MECA的核心成分Num1通过两个不同的脂质结合域与质膜和线粒体相互作用;然而,Num1与ER相互作用的分子机制尚不清楚。在这里,我们证明了 Num1 的 C 端含有一个 FFAT 基序,它能与完整的 ER 膜蛋白 Scs2 相互作用。Num1在线粒体拴系和动力蛋白锚定方面的功能与FFAT基团无关,但Num1在促进线粒体分裂方面的作用却需要FFAT基团。意想不到的是,我们还发现了 MECA 在调节磷脂酰肌醇-4-磷酸(PI(4)P)分布方面的新功能。打破 Num1 与其拴系的三层膜中任何一层膜的联系都会导致 PI(4)P 在 PM 上的积累,这可能是通过破坏 Sac1 介导的 PI(4)P 的周转来实现的。这项工作确立了 MECA 作为重要调控枢纽的地位,它在空间上组织线粒体、ER 和 PM 以协调关键的细胞功能。
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来源期刊
Journal of Cell Biology
Journal of Cell Biology 生物-细胞生物学
CiteScore
12.60
自引率
2.60%
发文量
213
审稿时长
1 months
期刊介绍: The Journal of Cell Biology (JCB) is a comprehensive journal dedicated to publishing original discoveries across all realms of cell biology. We invite papers presenting novel cellular or molecular advancements in various domains of basic cell biology, along with applied cell biology research in diverse systems such as immunology, neurobiology, metabolism, virology, developmental biology, and plant biology. We enthusiastically welcome submissions showcasing significant findings of interest to cell biologists, irrespective of the experimental approach.
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