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通过 ERRγ 实现 I 型肌代谢和脉管系统的运动和 PGC-1α 非依赖性同步。

Exercise and PGC-1α-independent synchronization of type I muscle metabolism and vasculature by ERRγ.

机构信息

Gene Expression Laboratory, Salk Institute, La Jolla, CA 92037, USA.

出版信息

Cell Metab. 2011 Mar 2;13(3):283-93. doi: 10.1016/j.cmet.2011.01.019.

DOI:10.1016/j.cmet.2011.01.019
PMID:21356518
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3084588/
Abstract

How type I skeletal muscle inherently maintains high oxidative and vascular capacity in the absence of exercise is unclear. We show that nuclear receptor ERRγ is highly expressed in type I muscle and, when transgenically expressed in anaerobic type II muscles (ERRGO mice), dually induces metabolic and vascular transformation in the absence of exercise. ERRGO mice show increased expression of genes promoting fat metabolism, mitochondrial respiration, and type I fiber specification. Muscles in ERRGO mice also display an activated angiogenic program marked by myofibrillar induction and secretion of proangiogenic factors, neovascularization, and a 100% increase in running endurance. Surprisingly, the induction of type I muscle properties by ERRγ does not involve PGC-1α. Instead, ERRγ genetically activates the energy sensor AMPK in mediating the metabovascular changes in ERRGO mice. Therefore, ERRγ represents a previously unrecognized determinant that specifies intrinsic vascular and oxidative metabolic features that distinguish type I from type II muscle.

摘要

在不运动的情况下,I 型骨骼肌如何内在地保持高氧化和血管能力尚不清楚。我们发现核受体 ERRγ 在 I 型肌肉中高度表达,并且当在厌氧型 II 型肌肉(ERRGO 小鼠)中转基因表达时,即使在不运动的情况下也能双重诱导代谢和血管转化。ERRGO 小鼠中促进脂肪代谢、线粒体呼吸和 I 型纤维特征的基因表达增加。ERRGO 小鼠的肌肉还表现出激活的血管生成程序,其特征是肌原纤维诱导和分泌促血管生成因子、新血管形成以及跑步耐力提高 100%。令人惊讶的是,ERRγ 诱导 I 型肌肉特性不涉及 PGC-1α。相反,ERRγ 通过遗传激活能量传感器 AMPK 来介导 ERRGO 小鼠的代谢血管变化。因此,ERRγ 代表了一个以前未被识别的决定因素,它决定了将 I 型与 II 型肌肉区分开来的内在血管和氧化代谢特征。

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