Non-cell autonomous regulation of cell-cell signaling and differentiation by mitochondrial ROS.

IF 7.4 1区 生物学 Q1 CELL BIOLOGY Journal of Cell Biology Pub Date : 2024-12-02 Epub Date: 2024-11-13 DOI:10.1083/jcb.202401084
Yipeng Du, Lei Wang, Lizbeth Perez-Castro, Maralice Conacci-Sorrell, Matthew Sieber
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Abstract

Mitochondrial reactive oxygen species (ROS) function intrinsically within cells to induce cell damage, regulate transcription, and cause genome instability. However, we know little about how mitochondrial ROS production non-cell autonomously impacts cell-cell signaling. Here, we show that mitochondrial dysfunction inhibits the plasma membrane localization of cell surface receptors that drive cell-cell communication during oogenesis. Within minutes, we found that mitochondrial ROS impairs exocyst membrane binding and leads to defective endosomal recycling. This endosomal defect impairs the trafficking of receptors, such as the Notch ligand Delta, during oogenesis. Remarkably, we found that overexpressing RAB11 restores ligand trafficking and rescues the developmental defects caused by ROS production. ROS production from adjacent cells acutely initiates a transcriptional response associated with growth and migration by suppressing Notch signaling and inducing extra cellualr matrix (ECM) remodeling. Our work reveals a conserved rapid response to ROS production that links mitochondrial dysfunction to the non-cell autonomous regulation of cell-cell signaling.

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线粒体 ROS 对细胞-细胞信号传递和分化的非细胞自主调控。
线粒体活性氧(ROS)在细胞内具有内在功能,可诱导细胞损伤、调节转录并导致基因组不稳定。然而,我们对线粒体 ROS 的产生如何非细胞自主地影响细胞-细胞信号传导知之甚少。在这里,我们发现线粒体功能障碍会抑制细胞表面受体的质膜定位,而细胞表面受体会在卵子发生过程中驱动细胞间通信。在几分钟内,我们发现线粒体 ROS 会损害外囊膜结合,并导致内体循环缺陷。这种内体缺陷会影响受体(如 Notch 配体 Delta)在卵子发生过程中的运输。值得注意的是,我们发现过量表达 RAB11 能恢复配体的贩运,并挽救因 ROS 产生而导致的发育缺陷。邻近细胞产生的 ROS 通过抑制 Notch 信号传导和诱导细胞外基质(ECM)重塑,迅速启动了与生长和迁移相关的转录反应。我们的研究揭示了对 ROS 产生的一种保守的快速反应,它将线粒体功能障碍与细胞-细胞信号传导的非细胞自主调节联系起来。
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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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