ZEITLUPE 参与调控拟南芥的热激响应蛋白质量控制系统。

ZEITLUPE Contributes to a Thermoresponsive Protein Quality Control System in Arabidopsis.

机构信息

Department of Chemistry, Seoul National University, Seoul 08825, Korea.

Institute of Agriculture and Life Sciences, Gyeongsang National University, Jinju 52828, Korea.

出版信息

Plant Cell. 2017 Nov;29(11):2882-2894. doi: 10.1105/tpc.17.00612. Epub 2017 Oct 23.

DOI:10.1105/tpc.17.00612

PMID:29061867

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5728135/

Abstract

Cellular proteins undergo denaturation and oxidative damage under heat stress, forming insoluble aggregates that are toxic to cells. Plants possess versatile mechanisms to deal with insoluble protein aggregates. Denatured proteins are either renatured to their native conformations or removed from cellular compartments; these processes are often referred to as protein quality control. Heat shock proteins (HSPs) act as molecular chaperones that assist in the renaturation-degradation process. However, how protein aggregates are cleared from cells in plants is largely unknown. Here, we demonstrate that heat-induced protein aggregates are removed by a protein quality control system that includes the ZEITLUPE (ZTL) E3 ubiquitin ligase, a central circadian clock component in ZTL mediates the polyubiquitination of aggregated proteins, which leads to proteasomal degradation and enhances the thermotolerance of plants growing at high temperatures. The ZTL-defective mutant exhibited reduced thermotolerance, which was accompanied by a decline in polyubiquitination but an increase in protein aggregate formation. ZTL and its interacting partner HSP90 were cofractionated with insoluble aggregates under heat stress, indicating that ZTL contributes to the thermoresponsive protein quality control machinery. Notably, the circadian clock was hypersensitive to heat in We propose that ZTL-mediated protein quality control contributes to the thermal stability of the circadian clock.

摘要

在热应激下，细胞内蛋白质发生变性和氧化损伤，形成对细胞有毒的不溶性聚集体。植物具有多种机制来应对不溶性蛋白质聚集体。变性蛋白质要么重新折叠成其天然构象，要么从细胞区室中移除；这些过程通常被称为蛋白质质量控制。热休克蛋白 (HSPs) 作为分子伴侣，协助重折叠-降解过程。然而，植物细胞中蛋白质聚集体是如何被清除的还知之甚少。在这里，我们证明热诱导的蛋白质聚集体被包括 ZEITLUPE (ZTL) E3 泛素连接酶在内的蛋白质质量控制系统清除，ZTL 是中央生物钟成分之一，它介导聚集体蛋白的多泛素化，导致蛋白酶体降解，并增强高温下生长的植物的耐热性。ZTL 缺陷型突变体表现出耐热性降低，伴随着多泛素化减少但蛋白质聚集体形成增加。ZTL 和其相互作用伴侣 HSP90 在热应激下与不溶性聚集体共分离，表明 ZTL 有助于热响应性蛋白质质量控制机制。值得注意的是，生物钟对热的敏感性在我们提出 ZTL 介导的蛋白质质量控制有助于生物钟的热稳定性。

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