Esrra regulates Rplp1-mediated translation of lysosome proteins suppressed in metabolic dysfunction-associated steatohepatitis and reversed by alternate day fasting

IF 7 2区医学 Q1 ENDOCRINOLOGY & METABOLISM

Molecular Metabolism Pub Date : 2024-07-19 DOI:10.1016/j.molmet.2024.101997

Madhulika Tripathi , Karine Gauthier , Reddemma Sandireddy , Jin Zhou , Priyanka Guptta , Suganya Sakthivel , Wei Wen Teo , Yadanar Than Naing , Kabilesh Arul , Keziah Tikno , Sung-Hee Park , Yajun Wu , Lijin Wang , Boon-Huat Bay , Lei Sun , Vincent Giguere , Pierce K.H. Chow , Sujoy Ghosh , Donald P. McDonnell , Paul M. Yen , Brijesh K. Singh

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引用次数: 0

Abstract

Objective

Currently, little is known about the mechanism(s) regulating global and specific protein translation during metabolic dysfunction-associated steatohepatitis (MASH; previously known as non-alcoholic steatohepatitis, NASH).

Methods

Unbiased label-free quantitative proteome, puromycin-labelling and polysome profiling were used to understand protein translation activity in vitro and in vivo.

Results

We observed a global decrease in protein translation during lipotoxicity in human primary hepatocytes, mouse hepatic AML12 cells, and livers from a dietary mouse model of MASH. Interestingly, proteomic analysis showed that Rplp1, which regulates ribosome and translation pathways, was one of the most downregulated proteins. Moreover, decreased Esrra expression and binding to the Rplp1 promoter, diminished Rplp1 gene expression during lipotoxicity. This, in turn, reduced global protein translation and Esrra/Rplp1-dependent translation of lysosome (Lamp2, Ctsd) and autophagy (sqstm1, Map1lc3b) proteins. Of note, Esrra did not increase its binding to these gene promoters or their gene transcription, confirming its regulation of their translation during lipotoxicity. Notably, hepatic Esrra-Rplp1-dependent translation of lysosomal and autophagy proteins also was impaired in MASH patients and liver-specific Esrra knockout mice. Remarkably, alternate day fasting induced Esrra-Rplp1-dependent expression of lysosomal proteins, restored autophagy, and reduced lipotoxicity, inflammation, and fibrosis in hepatic cell culture and in vivo models of MASH.

Conclusions

Esrra regulation of Rplp1-mediated translation of lysosome/autolysosome proteins was downregulated during MASH. Alternate day fasting activated this novel pathway and improved MASH, suggesting that Esrra and Rplp1 may serve as therapeutic targets for MASH. Our findings also provided the first example of a nuclear hormone receptor, Esrra, to not only regulate transcription but also protein translation, via induction of Rplp1.

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Esrra调节Rplp1介导的溶酶体蛋白翻译，在代谢功能障碍相关性脂肪性肝炎中受到抑制，并通过隔日禁食得到逆转。

目的：目前，人们对代谢功能障碍相关性脂肪性肝炎（MASH，以前称为非酒精性脂肪性肝炎，NASH）期间全局和特定蛋白质翻译的调节机制知之甚少：方法：采用无偏倚的无标记定量蛋白质组、嘌呤霉素标记和多聚体分析来了解体外和体内的蛋白质翻译活动：结果：我们观察到，在人类原代肝细胞、小鼠肝脏 AML12 细胞和 MASH 饮食模型小鼠肝脏中，脂肪毒性过程中蛋白质翻译全面减少。有趣的是，蛋白质组分析表明，调节核糖体和翻译途径的 Rplp1 是下调最多的蛋白质之一。此外，在脂肪毒性过程中，Esrra的表达和与Rplp1启动子的结合减少，从而降低了Rplp1基因的表达。这反过来又减少了全局蛋白质的翻译，以及溶酶体（Lamp2、Ctsd）和自噬（sqstm1、Map1lc3b）蛋白质依赖于Esrra/Rplp1的翻译。值得注意的是，Esrra 与这些基因启动子的结合及其基因转录并没有增加，这证实了它在脂肪毒性期间对这些基因翻译的调控作用。值得注意的是，在MASH患者和肝脏特异性Esrra基因敲除小鼠中，肝脏溶酶体和自噬蛋白的依赖性Esrra-Rplp1翻译也受到了影响。值得注意的是，在肝细胞培养和MASH体内模型中，隔日禁食诱导了溶酶体蛋白的Esrra-Rplp1依赖性表达，恢复了自噬，并降低了脂肪毒性、炎症和纤维化：结论：在MASH期间，Esrra对Rplp1介导的溶酶体/自溶酶体蛋白翻译的调控被下调。隔日禁食激活了这一新途径并改善了 MASH，这表明 Esrra 和 Rplp1 可作为 MASH 的治疗靶点。我们的研究结果还首次证明了核激素受体Esrra不仅能调节转录，还能通过诱导Rplp1调节蛋白质翻译。

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

Molecular Metabolism ENDOCRINOLOGY & METABOLISM-

CiteScore

14.50

自引率

2.50%

发文量

219

审稿时长

43 days

期刊介绍： Molecular Metabolism is a leading journal dedicated to sharing groundbreaking discoveries in the field of energy homeostasis and the underlying factors of metabolic disorders. These disorders include obesity, diabetes, cardiovascular disease, and cancer. Our journal focuses on publishing research driven by hypotheses and conducted to the highest standards, aiming to provide a mechanistic understanding of energy homeostasis-related behavior, physiology, and dysfunction. We promote interdisciplinary science, covering a broad range of approaches from molecules to humans throughout the lifespan. Our goal is to contribute to transformative research in metabolism, which has the potential to revolutionize the field. By enabling progress in the prognosis, prevention, and ultimately the cure of metabolic disorders and their long-term complications, our journal seeks to better the future of health and well-being.