兴奋
重编程
转录组
热冲击
生物
热冲击系数
秀丽隐杆线虫
细胞生物学
热休克蛋白
高铁F1
转录因子
遗传学
热休克蛋白70
基因表达
基因
氧化应激
生物化学
作者
Fan Xu,Ruoyao Li,Erika D. von Gromoff,Friedel Drepper,Bettina L. Knapp,Bettina Warscheid,Ralf Baumeister,Wenjing Qi
标识
DOI:10.1038/s41467-023-39882-8
摘要
Transient stress experiences not only trigger acute stress responses, but can also have long-lasting effects on cellular functions. In Caenorhabditis elegans, a brief exposure to heat shock during early adulthood extends lifespan and improves stress resistance, a phenomenon known as heat hormesis. Here, we investigated the prolonged effect of hormetic heat stress on the transcriptome of worms and found that the canonical heat shock response is followed by a profound transcriptional reprogramming in the post-stress period. This reprogramming relies on the endoribonuclease ENDU-2 but not the heat shock factor 1. ENDU-2 co-localizes with chromatin and interacts with RNA polymerase II, enabling specific regulation of transcription after the stress period. Failure to activate the post-stress response does not affect the resistance of animals to heat shock but eliminates the beneficial effects of hormetic heat stress. In summary, our work discovers that the RNA-binding protein ENDU-2 mediates the long-term impacts of transient heat stress via reprogramming transcriptome after stress exposure.
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