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通过条件性失活骨骼肌中的Baf60将运动生物能量学与全身代谢稳态解偶联

Uncoupling Exercise Bioenergetics From Systemic Metabolic Homeostasis by Conditional Inactivation of Baf60 in Skeletal Muscle.

作者信息

Meng Zhuo-Xian, Tao Weiwei, Sun Jingxia, Wang Qiuyu, Mi Lin, Lin Jiandie D

机构信息

Life Sciences Institute, University of Michigan, and Department of Cell & Developmental Biology, University of Michigan Medical School, Ann Arbor, MI

Department of Pathology and Pathophysiology, Key Laboratory of Disease Proteomics of Zhejiang Province, and Chronic Disease Research Institute of School of Public Health, School of Medicine, Zhejiang University, Hangzhou, Zhejiang, China.

出版信息

Diabetes. 2018 Jan;67(1):85-97. doi: 10.2337/db17-0367. Epub 2017 Nov 1.

DOI:10.2337/db17-0367
PMID:29092888
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5741141/
Abstract

Impaired skeletal muscle energy metabolism is linked to the pathogenesis of insulin resistance and glucose intolerance in type 2 diabetes. The contractile and metabolic properties of myofibers exhibit a high degree of heterogeneity and plasticity. The regulatory circuitry underpinning skeletal muscle energy metabolism is critically linked to exercise endurance and systemic homeostasis. Recent work has identified the Baf60 subunits of the SWI/SNF chromatin-remodeling complex as powerful regulators of the metabolic gene programs. However, their role in integrating myofiber energy metabolism with exercise endurance and metabolic physiology remains largely unknown. In this study, we conditionally inactivated Baf60a, Baf60c, or both in mature skeletal myocytes to delineate their contribution to muscle bioenergetics and metabolic physiology. Our work revealed functional redundancy between Baf60a and Baf60c in maintaining oxidative and glycolytic metabolism in skeletal myofibers and exercise endurance. Unexpectedly, mice lacking these two factors in skeletal muscle were protected from diet-induced and age-associated metabolic disorders. Transcriptional profiling analysis identified the muscle thermogenic gene program and myokine secretion as key pathways that integrate myofiber metabolism with systemic energy balance. As such, Baf60 deficiency in skeletal muscle illustrates a surprising disconnect between exercise endurance and systemic metabolic homeostasis.

摘要

骨骼肌能量代谢受损与2型糖尿病中胰岛素抵抗和葡萄糖不耐受的发病机制相关。肌纤维的收缩和代谢特性表现出高度的异质性和可塑性。支撑骨骼肌能量代谢的调节电路与运动耐力和全身稳态密切相关。最近的研究确定SWI/SNF染色质重塑复合物的Baf60亚基是代谢基因程序的强大调节因子。然而,它们在整合肌纤维能量代谢与运动耐力和代谢生理学方面的作用仍 largely unknown。在本研究中,我们在成熟骨骼肌细胞中有条件地使Baf60a、Baf60c或两者失活,以阐明它们对肌肉生物能学和代谢生理学的贡献。我们的研究揭示了Baf60a和Baf60c在维持骨骼肌纤维氧化和糖酵解代谢以及运动耐力方面的功能冗余。出乎意料的是,骨骼肌中缺乏这两种因子的小鼠免受饮食诱导和年龄相关的代谢紊乱影响。转录谱分析确定肌肉产热基因程序和肌动蛋白分泌是将肌纤维代谢与全身能量平衡整合的关键途径。因此,骨骼肌中Baf60缺乏说明了运动耐力与全身代谢稳态之间令人惊讶的脱节。

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