逆行线粒体信号传导决定代谢组织的特性和成熟度。

Retrograde mitochondrial signaling governs the identity and maturity of metabolic tissues.

作者信息

Walker Emily M, Pearson Gemma L, Lawlor Nathan, Stendahl Ava M, Lietzke Anne, Sidarala Vaibhav, Zhu Jie, Stromer Tracy, Reck Emma C, Li Jin, Levi-D'Ancona Elena, Pasmooij Mabelle B, Hubers Dre L, Renberg Aaron, Mohamed Kawthar, Parekh Vishal S, Zhang Irina X, Thompson Benjamin, Zhang Deqiang, Ware Sarah A, Haataja Leena, Qi Nathan, Parker Stephen C J, Arvan Peter, Yin Lei, Kaufman Brett A, Satin Leslie S, Sussel Lori, Stitzel Michael L, Soleimanpour Scott A

机构信息

Division of Metabolism, Endocrinology & Diabetes and Department of Internal Medicine, University of Michigan, Ann Arbor, MI, USA.

The Jackson Laboratory for Genomic Medicine, Farmington, CT, USA.

出版信息

Science. 2025 Apr 11;388(6743):eadf2034. doi: 10.1126/science.adf2034.

DOI:10.1126/science.adf2034

PMID:39913641

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11985298/

Abstract

Mitochondrial damage is a hallmark of metabolic diseases, including diabetes, yet the consequences of compromised mitochondria in metabolic tissues are often unclear. In this work, we report that dysfunctional mitochondrial quality control engages a retrograde (mitonuclear) signaling program that impairs cellular identity and maturity in β cells, hepatocytes, and brown adipocytes. Targeted deficiency throughout the mitochondrial quality control pathway, including genome integrity, dynamics, or turnover, impaired the oxidative phosphorylation machinery, activating the mitochondrial integrated stress response, eliciting chromatin remodeling, and promoting cellular immaturity rather than apoptosis to yield metabolic dysfunction. Pharmacologic blockade of the integrated stress response in vivo restored β cell identity after the loss of mitochondrial quality control. Targeting mitochondrial retrograde signaling may therefore be promising in the treatment or prevention of metabolic disorders.

摘要

线粒体损伤是包括糖尿病在内的代谢性疾病的一个标志，但代谢组织中线粒体功能受损的后果往往并不明确。在这项研究中，我们报告功能失调的线粒体质量控制会启动一个逆行（线粒体-细胞核）信号程序，该程序会损害β细胞、肝细胞和棕色脂肪细胞中的细胞特性和成熟度。整个线粒体质量控制途径（包括基因组完整性、动态性或更新）的靶向缺陷会损害氧化磷酸化机制，激活线粒体整合应激反应，引发染色质重塑，并促进细胞不成熟而非凋亡，从而导致代谢功能障碍。体内对整合应激反应的药物阻断在线粒体质量控制丧失后恢复了β细胞特性。因此，靶向线粒体逆行信号在代谢紊乱的治疗或预防方面可能具有前景。

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