Blocking constitutive autophagy rescues the loss of acquired heat resistance in Arabidopsis fes1a

IF 8.1 1区生物学 Q1 PLANT SCIENCES New Phytologist Pub Date : 2025-01-30 DOI:10.1111/nph.20393

Xuezhi Li, Tong Su, Xiaofeng Wang, Yan Liu, Jingjing Ge, Panfei Huo, Yiwu Zhao, Tongtong Wang, Hongbin Yu, Meijie Duan, Yuebin Jia, Xianpeng Yang, Pingping Wang, Qingqiu Gong, Jian Liu, Changle Ma

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Abstract

High temperature is one of several major abiotic stresses that can cause substantial loss of crop yields. Heat shock proteins (HSPs) are key components of heat stress resistance. Mutation of FES1A, an auxiliary molecular chaperone of HSP70, leads to defective acquired thermotolerance. Autophagy is a positive regulator of basal thermotolerance and a negative regulator of heat stress memory, but its function in acquired thermotolerance is unclear.
We found that blocking constitutive autophagy rescued the heat sensitivity of fes1a in Arabidopsis thaliana. Immunoblot and proteomic analyses showed that the rescue was not due to increased HSP levels. Instead, proteomic analysis and confocal microscopy studies revealed that knocking out the core autophagy-related (ATG) genes leads to accumulation of peroxisomes, thus upregulating the metabolic pathways within the peroxisomes.
Accumulation of peroxisomes promotes both reactive oxygen species scavenging and indole-3-acetic acid (IAA) production in atg7 fes1a. Overexpression of ABCD1/PXA1/CTS, a peroxisomal ATP-binding cassette transporter, in atg7 fes1a leads to abnormal peroxisomal function and subsequently thermosensitivity. Moreover, we found that exogenous application of indole-3-butyric acid, IAA or naphthalene-1-acetic acid rescued fes1a heat sensitivity.
We propose that autophagy is detrimental to the survival of the fes1a mutant, which has acquired thermosensitivity.

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阻断本构性自噬可挽救拟南芥fes1a获得性耐热性的丧失

高温是几种主要的非生物胁迫之一，可导致作物产量的重大损失。热休克蛋白（HSPs）是抗热应激的关键成分。HSP70的辅助分子伴侣FES1A突变导致获得性耐热性缺陷。自噬是基础耐热性的正调节因子和热应激记忆的负调节因子，但其在获得性耐热性中的作用尚不清楚。我们发现阻断本构性自噬可以恢复拟南芥fes1a的热敏性。免疫印迹和蛋白质组学分析表明，挽救不是由于热休克蛋白水平升高。相反，蛋白质组学分析和共聚焦显微镜研究显示，敲除核心自噬相关（ATG）基因会导致过氧化物酶体的积累，从而上调过氧化物酶体内的代谢途径。过氧化物酶体的积累促进了at7fes1a中活性氧的清除和吲哚-3-乙酸（IAA）的产生。ABCD1/PXA1/CTS（一种过氧化物酶体atp结合盒转运蛋白）在atg7 fes1a中过表达，导致过氧化物酶体功能异常，进而导致温敏性异常。此外，我们发现外源施用吲哚-3-丁酸、IAA或萘-1-乙酸可恢复fes1a的热敏性。我们认为自噬对fes1a突变体的生存是有害的，fes1a突变体已经获得了热敏性。

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

New Phytologist 生物-植物科学

自引率

5.30%

发文量

728

期刊介绍： New Phytologist is an international electronic journal published 24 times a year. It is owned by the New Phytologist Foundation, a non-profit-making charitable organization dedicated to promoting plant science. The journal publishes excellent, novel, rigorous, and timely research and scholarship in plant science and its applications. The articles cover topics in five sections: Physiology & Development, Environment, Interaction, Evolution, and Transformative Plant Biotechnology. These sections encompass intracellular processes, global environmental change, and encourage cross-disciplinary approaches. The journal recognizes the use of techniques from molecular and cell biology, functional genomics, modeling, and system-based approaches in plant science. Abstracting and Indexing Information for New Phytologist includes Academic Search, AgBiotech News & Information, Agroforestry Abstracts, Biochemistry & Biophysics Citation Index, Botanical Pesticides, CAB Abstracts®, Environment Index, Global Health, and Plant Breeding Abstracts, and others.