Muscle metabolic resilience and enhanced exercise adaptation by Esr1-induced remodeling of mitochondrial cristae-nucleoid architecture in males.

IF 11.7 1区医学 Q1 CELL BIOLOGY

Cell Reports Medicine Pub Date : 2025-05-20 Epub Date: 2025-05-05 DOI:10.1016/j.xcrm.2025.102116

Zhenqi Zhou, Timothy M Moore, Alexander R Strumwasser, Vicent Ribas, Hirotaka Iwasaki, Noelle Morrow, Alice Ma, Peter H Tran, Jonathan Wanagat, Thomas Q de Aguiar Vallim, Bethan Clifford, Zhengyi Zhang, Tamer Sallam, Brian W Parks, Karen Reue, Orian Shirihai, Rebeca Acin-Perez, Marco Morselli, Matteo Pellegrini, Sushil K Mahata, Frode Norheim, Mingqi Zhou, Marcus M Seldin, Aldons J Lusis, Cathy C Lee, Mark O Goodarzi, Jerome I Rotter, Joshua R Hansen, Ben Drucker, Tyler J Sagendorf, Joshua N Adkins, James A Sanford, Francesco J DeMayo, Sylvia C Hewitt, Kenneth S Korach, Andrea L Hevener

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Abstract

Reduced estrogen action is associated with obesity and insulin resistance. However, the cell and tissue-specific actions of estradiol in maintaining metabolic health remain inadequately understood, especially in men. We observed that skeletal muscle ESR1/Esr1 (encodes estrogen receptor α [ERα]) is positively correlated with insulin sensitivity and metabolic health in humans and mice. Because skeletal muscle is a primary tissue involved in oxidative metabolism and insulin sensitivity, we generated muscle-selective Esr1 loss- and gain-of-expression mouse models. We determined that Esr1 links mitochondrial DNA replication and cristae-nucleoid architecture with metabolic function and insulin action in the skeletal muscle of male mice. Overexpression of human ERα in muscle protected male mice from diet-induced disruption of metabolic health and enhanced mitochondrial adaptation to exercise training intervention. Our findings indicate that muscle expression of Esr1 is critical for the maintenance of mitochondrial function and metabolic health in males and that tissue-selective activation of ERα can be leveraged to combat metabolic-related diseases in both sexes.

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esr1诱导的雄性线粒体嵴-类核结构重塑对肌肉代谢弹性和增强运动适应性的影响。

雌激素作用降低与肥胖和胰岛素抵抗有关。然而，雌二醇在维持代谢健康中的细胞和组织特异性作用仍未充分了解，特别是在男性中。我们观察到骨骼肌ESR1/ ESR1（编码雌激素受体α [ERα]）与人类和小鼠的胰岛素敏感性和代谢健康呈正相关。由于骨骼肌是参与氧化代谢和胰岛素敏感性的主要组织，我们建立了肌肉选择性Esr1表达缺失和获得的小鼠模型。我们确定Esr1将雄性小鼠骨骼肌中的线粒体DNA复制和嵴-类核结构与代谢功能和胰岛素作用联系起来。人ERα在肌肉中的过度表达保护雄性小鼠免受饮食诱导的代谢健康破坏，并增强线粒体对运动训练干预的适应。我们的研究结果表明，Esr1的肌肉表达对于男性线粒体功能和代谢健康的维持至关重要，并且ERα的组织选择性激活可以在两性中用于对抗代谢相关疾病。

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

Cell Reports Medicine Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)

CiteScore

15.00

自引率

1.40%

发文量

231

审稿时长

40 days

期刊介绍： Cell Reports Medicine is an esteemed open-access journal by Cell Press that publishes groundbreaking research in translational and clinical biomedical sciences, influencing human health and medicine. Our journal ensures wide visibility and accessibility, reaching scientists and clinicians across various medical disciplines. We publish original research that spans from intriguing human biology concepts to all aspects of clinical work. We encourage submissions that introduce innovative ideas, forging new paths in clinical research and practice. We also welcome studies that provide vital information, enhancing our understanding of current standards of care in diagnosis, treatment, and prognosis. This encompasses translational studies, clinical trials (including long-term follow-ups), genomics, biomarker discovery, and technological advancements that contribute to diagnostics, treatment, and healthcare. Additionally, studies based on vertebrate model organisms are within the scope of the journal, as long as they directly relate to human health and disease.