CCSer2 gates dynein activity at the cell periphery.

IF 7.4 1区生物学 Q1 CELL BIOLOGY

Journal of Cell Biology Pub Date : 2025-06-02 Epub Date: 2025-04-22 DOI:10.1083/jcb.202406153

Juliana L Zang, Daytan Gibson, Ann-Marie Zheng, Wanjing Shi, John P Gillies, Chris Stein, Catherine M Drerup, Morgan E DeSantis

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引用次数: 0

Abstract

Cytoplasmic dynein-1 (dynein) is a microtubule-associated, minus end-directed motor that traffics hundreds of different cargos. Dynein must discriminate between cargos and traffic them at the appropriate time from the correct cellular region. How dynein's trafficking activity is regulated in time or cellular space remains poorly understood. Here, we identify CCSer2 as the first known protein to gate dynein activity in the spatial dimension. CCSer2 promotes the migration of developing zebrafish primordium cells, macrophages, and cultured human cells by facilitating the trafficking of cargos that are acted on by peripherally localized dynein. Our data suggest that CCSer2 disfavors the interaction between dynein and its regulator Ndel1 at the cell edge, resulting in localized dynein activation. These findings support a model where the spatial specificity of dynein is achieved by the localization of proteins that trigger Ndel1's release from dynein. We propose that CCSer2 defines a broader class of proteins that activate dynein in distinct microenvironments via regulating Ndel1-dynein interaction.

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CCSer2在细胞外围调控动力蛋白的活性。

细胞质动力蛋白-1 （dynein）是一种微管相关的负端定向马达，运输数百种不同的货物。动力蛋白必须在适当的时间从正确的细胞区域区分货物和交通。动力蛋白的运输活动是如何在时间上或细胞空间上受到调节的，人们仍然知之甚少。在这里，我们确定CCSer2是已知的第一个在空间维度上限制动力蛋白活性的蛋白质。CCSer2通过促进外周定位动力蛋白作用的货物运输，促进发育中的斑马鱼原基细胞、巨噬细胞和培养的人类细胞的迁移。我们的数据表明，CCSer2不利于动力蛋白与其调节因子Ndel1在细胞边缘的相互作用，导致局部动力蛋白激活。这些发现支持一个模型，即动力蛋白的空间特异性是通过触发Ndel1从动力蛋白释放的蛋白质的定位来实现的。我们认为CCSer2定义了一类更广泛的蛋白质，它们通过调节ndel1 -动力蛋白的相互作用，在不同的微环境中激活动力蛋白。

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

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.