Protrudin acts at ER-endosome contacts to promote KIF5-mediated endosomal fission and endosome-to-Golgi transport

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.15.602703
Julia Kleniuk, A. G. Nadadhur, Emily Wolfenden, Catherine Rodger, Eliska Zlamalova, Evan Reid
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Abstract

Protrudin binds ER-localised VAPs and endosomal phosphoinositides to form ER-endosome contacts that promote endosomal tubule fission and endosome-to-Golgi traffic. Protrudin recruits KIF5 to provide a FYCO1-independent force to fission endosomal tubules in neurons and non-polarised cells. Abstract Fission of transport tubules from early endosomes is required for endosomal sorting, but mechanisms of endosomal tubule fission (ETF) are incompletely understood. We show protrudin acts at ER-endosome contacts to promote ETF and endosome-to-Golgi traffic. Protrudin-mediated ETF required its ability to interact with ER-localised VAP proteins, endosomal phosphoinositides and KIF5. These properties also regulated the distance between protrudin and endosomal tubules. The defective ETF phenotype of increased endosomal tubulation in cells lacking protrudin was phenocopied by depletion of KIF5, but not FYCO1, a motor protein adaptor implicated in protrudin-dependent late endosome motility. It also required intact microtubules and dynein, consistent with a model where protrudin facilitates a tug-of-war between KIF5 and dynein to fission tubules. In addition to its direct role, protrudin links many other machineries involved in ETF, thus our findings elucidate how ETF is co-ordinated. These machineries are enriched for proteins implicated in hereditary motor neuron disorders, and protrudin or KIF5 depletion caused defective ETF in human neurons.
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Protrudin在ER-内质体接触处发挥作用,促进KIF5介导的内质体裂变和内质体到高尔基体的转运
Protrudin与ER定位的VAPs和内质体磷脂结合,形成ER-内质体接触,促进内质体小管裂变和内质体到高尔基体的交通。Protrudin招募KIF5,为神经元和非极化细胞中内质体小管的裂变提供一种不依赖于FYCO1的力量。摘要 早期内体的运输小管裂变是内体分选所必需的,但内体小管裂变(ETF)的机制尚不完全清楚。我们的研究表明,protrudin在ER-内体接触处发挥作用,促进ETF和内体到高尔基体的运输。Protrudin介导的ETF需要其与ER定位的VAP蛋白、内体磷脂和KIF5相互作用的能力。这些特性还能调节原肠蛋白与内膜小管之间的距离。在缺乏 protrudin 的细胞中,内质体小管增加的 ETF 表型缺陷可通过消耗 KIF5 而不是 FYCO1 得到表型,FYCO1 是一种与 protrudin 依赖性晚期内质体运动有关的运动蛋白适配体。它还需要完整的微管和动力蛋白,这与 protrudin 促进 KIF5 和动力蛋白之间的拉锯战以裂变微管的模型一致。除了其直接作用外,protrudin 还连接了参与 ETF 的许多其他机制,因此我们的研究结果阐明了 ETF 是如何协调的。这些机制富含与遗传性运动神经元疾病有关的蛋白质,protrudin或KIF5的缺失会导致人类神经元的ETF缺陷。
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