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解偶联蛋白 1 介导的骨骼肌线粒体解偶联增加能量消耗和谷胱甘肽含量,同时减轻 ROS 产生。

Mitochondrial uncoupling in skeletal muscle by UCP1 augments energy expenditure and glutathione content while mitigating ROS production.

机构信息

Department of Biochemistry, Microbiology and Immunology, Faculty of Medicine, University of Ottawa, Ottawa, Ontario, Canada.

出版信息

Am J Physiol Endocrinol Metab. 2013 Aug 1;305(3):E405-15. doi: 10.1152/ajpendo.00057.2013. Epub 2013 Jun 11.

DOI:10.1152/ajpendo.00057.2013
PMID:23757405
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3742851/
Abstract

Enhancement of proton leaks in muscle tissue represents a potential target for obesity treatment. In this study, we examined the bioenergetic and physiological implications of increased proton leak in skeletal muscle. To induce muscle-specific increases in proton leak, we used mice that selectively express uncoupling protein-1 (UCP1) in skeletal muscle tissue. UCP1 expression in muscle mitochondria was ∼13% of levels in brown adipose tissue (BAT) mitochondria and caused increased GDP-sensitive proton leak. This was associated with an increase in whole body energy expenditure and a decrease in white adipose tissue content. Muscle UCP1 activity had divergent effects on mitochondrial ROS emission and glutathione levels compared with BAT. UCP1 in muscle increased total mitochondrial glutathione levels ∼7.6 fold. Intriguingly, unlike in BAT mitochondria, leak through UCP1 in muscle controlled mitochondrial ROS emission. Inhibition of UCP1 with GDP in muscle mitochondria increased ROS emission ∼2.8-fold relative to WT muscle mitochondria. GDP had no impact on ROS emission from BAT mitochondria from either genotype. Collectively, these findings indicate that selective induction of UCP1-mediated proton leak in muscle can increase whole body energy expenditure and decrease adiposity. Moreover, ectopic UCP1 expression in skeletal muscle can control mitochondrial ROS emission, while it apparently plays no such role in its endogenous tissue, brown fat.

摘要

增强肌肉组织中的质子泄漏可能成为肥胖治疗的一个潜在靶点。在这项研究中,我们研究了骨骼肌中质子泄漏增加的生物能量学和生理学意义。为了诱导肌肉特异性质子泄漏增加,我们使用了在骨骼肌组织中选择性表达解偶联蛋白 1(UCP1)的小鼠。肌肉线粒体中 UCP1 的表达水平约为棕色脂肪组织(BAT)线粒体中 UCP1 表达水平的 13%,并导致 GDP 敏感的质子泄漏增加。这与全身能量消耗增加和白色脂肪组织含量减少有关。与 BAT 相比,肌肉 UCP1 活性对线粒体 ROS 发射和谷胱甘肽水平有不同的影响。肌肉中的 UCP1 将总线粒体谷胱甘肽水平提高了约 7.6 倍。有趣的是,与 BAT 线粒体不同,肌肉中的 UCP1 通过质子泄漏来控制线粒体 ROS 发射。与 WT 肌肉线粒体相比,肌肉线粒体中 GDP 抑制 UCP1 导致 ROS 发射增加了约 2.8 倍。GDP 对来自两种基因型的 BAT 线粒体的 ROS 发射没有影响。总之,这些发现表明,在肌肉中选择性诱导 UCP1 介导的质子泄漏可以增加全身能量消耗并减少肥胖。此外,骨骼肌中异位 UCP1 的表达可以控制线粒体 ROS 发射,而在其内源性组织棕色脂肪中显然没有这种作用。

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Glutaredoxin-2 is required to control proton leak through uncoupling protein-3.谷氧还蛋白-2 对于通过解偶联蛋白-3 控制质子漏是必需的。
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Uncoupling protein 1 dependent reactive oxygen species production by thymus mitochondria.解偶联蛋白 1 依赖的胸腺线粒体活性氧的产生。
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Calorie restriction in mice overexpressing UCP3: evidence that prior mitochondrial uncoupling alters response.UCP3 过表达小鼠的热量限制:预先的线粒体解偶联改变反应的证据。
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Brown adipose tissue mitochondria oxidizing fatty acids generate high levels of reactive oxygen species irrespective of the uncoupling protein-1 activity state.棕色脂肪组织线粒体氧化脂肪酸时会产生大量活性氧,与解偶联蛋白-1的活性状态无关。
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Using brown adipose tissue to treat obesity - the central issue.利用棕色脂肪组织治疗肥胖症——核心问题。
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