Strigolactones positively regulate HY5-dependent autophagy and the degradation of ubiquitinated proteins in response to cold stress in tomato

IF 8.1 1区生物学 Q1 PLANT SCIENCES

New Phytologist Pub Date : 2024-08-19 DOI:10.1111/nph.20058

Cheng Chi, Xinlin Chen, Changan Zhu, Jiajian Cao, Hui Li, Ying Fu, Guochen Qin, Jun Zhao, Jingquan Yu, Jie Zhou

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引用次数: 0

Abstract

Autophagy, involved in protein degradation and amino acid recycling, plays a key role in plant development and stress responses. However, the relationship between autophagy and phytohormones remains unclear.
We used diverse methods, including CRISPR/Cas9, ultra-performance liquid chromatography coupled with tandem mass spectrometry, chromatin immunoprecipitation, electrophoretic mobility shift assays, and dual-luciferase assays to explore the molecular mechanism of strigolactones in regulating autophagy and the degradation of ubiquitinated proteins under cold stress in tomato (Solanum lycopersicum).
We show that cold stress induced the accumulation of ubiquitinated proteins. Mutants deficient in strigolactone biosynthesis were more sensitive to cold stress with increased accumulation of ubiquitinated proteins. Conversely, treatment with the synthetic strigolactone analog GR24^5DS enhanced cold tolerance in tomato, with elevated levels of accumulation of autophagosomes and transcripts of autophagy-related genes (ATGs), and reduced accumulation of ubiquitinated proteins. Meanwhile, cold stress induced the accumulation of ELONGATED HYPOCOTYL 5 (HY5), which was triggered by strigolactones. HY5 further trans-activated ATG18a transcription, resulting in autophagy formation. Mutation of ATG18a compromised strigolactone-induced cold tolerance, leading to decreased formation of autophagosomes and increased accumulation of ubiquitinated proteins.
These findings reveal that strigolactones positively regulate autophagy in an HY5-dependent manner and facilitate the degradation of ubiquitinated proteins under cold conditions in tomato.

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在番茄应对冷胁迫的过程中，三苯甲内酯能正向调节依赖于 HY5 的自噬和泛素化蛋白质的降解。

自噬参与蛋白质降解和氨基酸循环，在植物生长发育和胁迫反应中发挥着关键作用。然而，自噬与植物激素之间的关系仍不清楚。我们采用 CRISPR/Cas9、超高效液相色谱-串联质谱、染色质免疫沉淀、电泳迁移检测和双荧光素酶检测等多种方法，探讨了芪内酯在番茄（Solanum lycopersicum）冷胁迫下调控自噬和泛素化蛋白降解的分子机制。我们发现，冷胁迫会诱导泛素化蛋白质的积累。缺乏绞股蓝内酯生物合成的突变体对冷胁迫更加敏感，泛素化蛋白质的积累增加。相反，用合成的芪内酯类似物 GR245DS 处理番茄会增强其耐寒性，提高自噬体和自噬相关基因（ATGs）转录本的积累水平，减少泛素化蛋白质的积累。与此同时，冷胁迫诱导了延长的自噬基因 5（HY5）的积累，这是由绞股蓝内酯引发的。HY5进一步反式激活了ATG18a的转录，导致自噬的形成。ATG18a的突变会影响绞股蓝内酯诱导的耐寒性，导致自噬体的形成减少和泛素化蛋白质的积累增加。这些研究结果表明，在番茄的寒冷条件下，绞股蓝内酯以一种依赖于 HY5 的方式积极调节自噬，并促进泛素化蛋白质的降解。

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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.