从头脂肪生成和脂质氧化之间的底物循环:对抗骨骼肌脂肪毒性和糖脂毒性的产热机制。

A G Dulloo, M Gubler, J P Montani, J Seydoux, G Solinas
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引用次数: 84

摘要

生命是一种燃烧,但自从Randle在1963年提出“葡萄糖-脂肪酸循环”以来,维持人类生命的主要燃料基质如何相互竞争和相互作用以进行燃烧一直是胰岛素抵抗发病机制研究的中心。从那时起,葡萄糖和脂质代谢之间相互作用的几个特征被揭示出来,这些特征以互惠性和依赖性为特征,即:脂肪酸浓度升高对葡萄糖氧化的抑制作用(通过线粒体丙酮酸脱氢酶失活或通过胰岛素介导的葡萄糖运输脱敏),葡萄糖浓度升高对脂肪酸氧化的抑制作用(通过丙二酰辅酶a调节脂肪酸进入线粒体),以及最近葡萄糖浓度升高对新生脂肪生成的刺激作用,即,从葡萄糖合成脂质(通过SREBP1c调节糖酵解酶和脂肪生成酶)。本文首先回顾了骨骼肌中葡萄糖和脂质相互作用的生理意义,这些相互作用与血糖和细胞内脂质稳态有关。然后,它集中在研究瘦素对完整骨骼肌产热的直接影响的量热学研究的新证据,葡萄糖和脂质氧化之间相互作用的另一个特征:从头脂肪生成和脂质氧化之间的底物循环。有人提出,这种将葡萄糖和脂质代谢与产热联系起来的能量耗散底物循环可以作为调节细胞内脂质稳态的“微调”机制,从而有助于保护骨骼肌免受脂肪毒性的侵害。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Substrate cycling between de novo lipogenesis and lipid oxidation: a thermogenic mechanism against skeletal muscle lipotoxicity and glucolipotoxicity.

Life is a combustion, but how the major fuel substrates that sustain human life compete and interact with each other for combustion has been at the epicenter of research into the pathogenesis of insulin resistance ever since Randle proposed a 'glucose-fatty acid cycle' in 1963. Since then, several features of a mutual interaction that is characterized by both reciprocality and dependency between glucose and lipid metabolism have been unravelled, namely: the inhibitory effects of elevated concentrations of fatty acids on glucose oxidation (via inactivation of mitochondrial pyruvate dehydrogenase or via desensitization of insulin-mediated glucose transport),the inhibitory effects of elevated concentrations of glucose on fatty acid oxidation (via malonyl-CoA regulation of fatty acid entry into the mitochondria), and more recentlythe stimulatory effects of elevated concentrations of glucose on de novo lipogenesis, that is, synthesis of lipids from glucose (via SREBP1c regulation of glycolytic and lipogenic enzymes). This paper first revisits the physiological significance of these mutual interactions between glucose and lipids in skeletal muscle pertaining to both blood glucose and intramyocellular lipid homeostasis. It then concentrates upon emerging evidence, from calorimetric studies investigating the direct effect of leptin on thermogenesis in intact skeletal muscle, of yet another feature of the mutual interaction between glucose and lipid oxidation: that of substrate cycling between de novo lipogenesis and lipid oxidation. It is proposed that this energy-dissipating substrate cycling that links glucose and lipid metabolism to thermogenesis could function as a 'fine-tuning' mechanism that regulates intramyocellular lipid homeostasis, and hence contributes to the protection of skeletal muscle against lipotoxicity.

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