核膜-液泡接触减轻核孔复合体组装压力。

Nuclear envelope-vacuole contacts mitigate nuclear pore complex assembly stress.

机构信息

Department of Cell and Developmental Biology, Vanderbilt University School of Medicine, Nashville, TN.

出版信息

J Cell Biol. 2020 Dec 7;219(12). doi: 10.1083/jcb.202001165.

DOI:10.1083/jcb.202001165

PMID:33053148

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7563749/

Abstract

The intricacy of nuclear pore complex (NPC) biogenesis imposes risks of failure that can cause defects in nuclear transport and nuclear envelope (NE) morphology; however, cellular mechanisms used to alleviate NPC assembly stress are not well defined. In the budding yeast Saccharomyces cerevisiae, we demonstrate that NVJ1- and MDM1-enriched NE-vacuole contacts increase when NPC assembly is compromised in several nup mutants, including nup116ΔGLFG cells. These interorganelle nucleus-vacuole junctions (NVJs) cooperate with lipid droplets to maintain viability and enhance NPC formation in assembly mutants. Additionally, NVJs function with ATG1 to remodel the NE and promote vacuole-dependent degradation of specific nucleoporins in nup116ΔGLFG cells. Importantly, NVJs significantly improve the physiology of NPC assembly mutants, despite having only negligible effects when NPC biogenesis is unperturbed. These results therefore define how NE-vacuole interorganelle contacts coordinate responses to mitigate deleterious cellular effects caused by disrupted NPC assembly.

摘要

核孔复合体（NPC）生物发生的复杂性带来了失效的风险，可能导致核运输和核膜（NE）形态的缺陷；然而，用于缓解 NPC 组装压力的细胞机制尚不清楚。在 budding 酵母 Saccharomyces cerevisiae 中，我们证明了当 NPC 组装在包括 nup116ΔGLFG 细胞在内的几种 nup 突变体中受到损害时，NVJ1 和 MDM1 富集的 NE-液泡接触增加。这些细胞器间的核-液泡连接（NVJ）与脂滴合作，以维持在组装突变体中的生存能力和增强 NPC 的形成。此外，NVJs 与 ATG1 一起作用以重塑 NE，并促进 nup116ΔGLFG 细胞中特定核孔蛋白的液泡依赖性降解。重要的是，尽管在 NPC 生物发生不受干扰时，NVJs 的影响可以忽略不计，但它们显著改善了 NPC 组装突变体的生理学。因此，这些结果定义了如何通过 NE-液泡细胞器间的接触来协调应对措施，以减轻由 NPC 组装破坏引起的有害细胞效应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eda2/7563749/2fd552259200/JCB_202001165_Fig1.jpg

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核膜-液泡接触减轻核孔复合体组装压力。

Nuclear envelope-vacuole contacts mitigate nuclear pore complex assembly stress.

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