跨物种相互作用组分析发现植物蛋白质质量控制的保守选择性自噬机制

Victor Sanchez de Medina Hernandez, Marintia Mayola Nava Garcia, Marion Clavel, Ranjith K. Papareddy, Veselin I. Andreev, Peng Gao, Juan Carlos De la Concepcion, Varsha Mathur, Lorenzo Picchianti, Nenad Grujic, Rokoslana Kobylinska, Alibek Abdrakhmanov, Heloise Duverge, Gaurav Anand, Nils Leibrock, Anita Bianchi, Tim Crawford, Luca Argiro, Azadeh Mohseni, Marta Garcia Leon, Mateusz Matuszkiewickz, Margot Raffeiner, Cheuk-Ling Wun, Jakob V. Kanne, Anton Meinhart, Elisabeth Roitinger, Isabel Baurle, Byun-Ho Kang, Morten Petersen, Suayib Ustun, Yogesh Kulathu, Tim Clausen, Silvia Ramundo, Yasin Dagdas
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引用次数: 0

摘要

选择性自噬是一种基本的蛋白质质量控制途径,它通过降解受损或过剩的细胞成分(尤其是在应激状态下)来保障蛋白稳态。这一过程由选择性自噬受体(SARs)协调,SARs 引导特定货物降解。虽然人们在了解选择性自噬的分子框架方面取得了长足进步,但不同物种的 SAR 受体的多样性在很大程度上仍未得到探索。通过对五种模式生物的相互作用组进行比较分析,我们发现了一系列保守的和特定品系的 SAR 候选物。其中,我们验证了 CESAR 是一种保守的 SAR,对蛋白毒性胁迫下的蛋白稳态至关重要。CESAR 专门促进疏水性泛素化蛋白质聚集体的降解,对于热应激耐受性是不可或缺的。我们的研究为发现 SAR 提供了丰富的资源,并将 CESAR 定位为蛋白稳态的关键调控因子,对提高植物的胁迫恢复能力具有广泛的意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cross-species interactome analysis uncovers a conserved selective autophagy mechanism for protein quality control in plants
Selective autophagy is a fundamental protein quality control pathway that safeguards proteostasis by degrading damaged or surplus cellular components, particularly under stress. This process is orchestrated by selective autophagy receptors (SARs) that direct specific cargo for degradation. While significant strides have been made in understanding the molecular framework of selective autophagy, the diversity of SAR repertoires across species remain largely unexplored. Through a comparative interactome analysis across five model organisms, we identified a suite of conserved and lineage-specific SAR candidates. Among these, we validated CESAR as a conserved SAR critical for proteostasis under proteotoxic stress. CESAR specifically facilitates the degradation of hydrophobic, ubiquitinated protein aggregates and is indispensable for heat stress tolerance. Our study offers a rich resource for SAR discovery and positions CESAR as a pivotal regulator of proteostasis, with broad implications for improving stress resilience in plants.
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