RBBP5 对全球蛋白稳态动态的表观遗传调控确保哺乳动物机体健康

Syeda Kubra, Michelle Sun, William Dion, Ahmet Catak, Hannah Luong, Haokun Wang, Yinghong Pan, Jia-Jun Liu, Aishwarya Ponna, Ian Sipula, Michael J Jurczak, Silvia Liu, Bokai Zhu
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摘要

蛋白稳态对细胞健康至关重要,破坏蛋白稳态会导致衰老、神经变性和代谢紊乱等病症。传统上,蛋白质毒性应激反应是作为对各种有害因素的急性反应来研究的;然而,最近的证据显示,在哺乳动物的生理条件下,许多蛋白质稳态应激反应基因表现出 ~12 小时的超昼夜节律。这些节律由依赖 XBP1s 的 12 小时振荡器驱动,对于管理蛋白稳态至关重要。通过探索小鼠肝脏 12h 振荡器的染色质图谱,我们发现 RBBP5(编写 H3K4me3 的 COMPASS 复合物的一个关键亚基)是蛋白稳态的一个重要表观遗传调节因子。RBBP5是调节肝脏12h振荡器和对急性蛋白毒性应激的转录反应所不可或缺的,它是蛋白稳态转录因子XBP1s的共激活因子。RBBP5 消减会导致小鼠对蛋白毒性应激、慢性炎症和肝脏脂肪变性的敏感性增加,同时自噬功能受损,体外细胞存活率降低。在人体中,RBBP5 的低表达与适应性应激反应基因表达减少和肝脂肪变性有关。我们的研究结果表明,RBBP5 是蛋白稳态的核心调节因子,对维持哺乳动物机体健康至关重要。
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Epigenetic regulation of global proteostasis dynamics by RBBP5 ensures mammalian organismal health
Proteostasis is vital for cellular health, with disruptions leading to pathologies including aging, neurodegeneration and metabolic disorders. Traditionally, proteotoxic stress responses were studied as acute reactions to various noxious factors; however, recent evidence reveals that many proteostasis stress-response genes exhibit ~12-hour ultradian rhythms under physiological conditions in mammals. These rhythms, driven by an XBP1s-dependent 12h oscillator, are crucial for managing proteostasis. By exploring the chromatin landscape of the murine 12h hepatic oscillator, we identified RBBP5, a key subunit of the COMPASS complex writing H3K4me3, as an essential epigenetic regulator of proteostasis. RBBP5 is indispensable for regulating both the hepatic 12h oscillator and transcriptional response to acute proteotoxic stress, acting as a co-activator for proteostasis transcription factor XBP1s. RBBP5 ablation leads to increased sensitivity to proteotoxic stress, chronic inflammation, and hepatic steatosis in mice, along with impaired autophagy and reduced cell survival in vitro. In humans, lower RBBP5 expression is associated with reduced adaptive stress-response gene expression and hepatic steatosis. Our findings establish RBBP5 as a central regulator of proteostasis, essential for maintaining mammalian organismal health.
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