Remodelling of Nucleus-Vacuole Junctions During Metabolic and Proteostatic Stress.

Contact (Thousand Oaks (Ventura County, Calif.)) Pub Date : 2021-05-27 eCollection Date: 2021-01-01 DOI:10.1177/25152564211016608

Verena Kohler, Sabrina Büttner

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Abstract

Cellular adaptation to stress and metabolic cues requires a coordinated response of different intracellular compartments, separated by semipermeable membranes. One way to facilitate interorganellar communication is via membrane contact sites, physical bridges between opposing organellar membranes formed by an array of tethering machineries. These contact sites are highly dynamic and establish an interconnected organellar network able to quickly respond to external and internal stress by changing size, abundance and molecular architecture. Here, we discuss recent work on nucleus-vacuole junctions, connecting yeast vacuoles with the nucleus. Appearing as small, single foci in mitotic cells, these contacts expand into one enlarged patch upon nutrient exhaustion and entry into quiescence or can be shaped into multiple large foci essential to sustain viability upon proteostatic stress at the nuclear envelope. We highlight the remarkable plasticity and rapid remodelling of these contact sites upon metabolic or proteostatic stress and their emerging importance for cellular fitness.

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代谢和蛋白静态应激过程中的核-囊连接重塑

细胞对压力和新陈代谢信号的适应需要由半透膜隔开的不同细胞内区室的协调反应。促进细胞器间交流的一种方式是通过膜接触点，即由一系列系链机制形成的对立细胞器膜之间的物理桥梁。这些接触点是高度动态的，它们建立了一个相互连接的细胞器网络，能够通过改变大小、丰度和分子结构对内外压力做出快速反应。在此，我们将讨论最近有关连接酵母液泡与细胞核的细胞核-液泡连接点的研究。这些连接点在有丝分裂细胞中表现为单个小病灶，在营养耗竭和进入静止期时扩展成一个扩大的斑块，或者在核膜受到蛋白静态压力时形成多个维持生命力所必需的大病灶。我们强调了这些接触点在新陈代谢或蛋白静态应激时的显著可塑性和快速重塑，以及它们对细胞活力的新的重要性。

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