线粒体靶向过氧化氢酶通过减少肌肉内脂质积累来预防高脂饮食诱导的肌肉胰岛素抵抗。

Mitochondrial-Targeted Catalase Protects Against High-Fat Diet-Induced Muscle Insulin Resistance by Decreasing Intramuscular Lipid Accumulation.

作者信息

Lee Hui-Young, Lee Jae Sung, Alves Tiago, Ladiges Warren, Rabinovitch Peter S, Jurczak Michael J, Choi Cheol Soo, Shulman Gerald I, Samuel Varman T

机构信息

Department of Molecular Medicine, School of Medicine, Gachon University, Incheon, Korea.

Korea Mouse Metabolic Phenotyping Center, Lee Gil Ya Cancer and Diabetes Institute, Gachon University, Incheon, Korea.

出版信息

Diabetes. 2017 Aug;66(8):2072-2081. doi: 10.2337/db16-1334. Epub 2017 May 5.

DOI:10.2337/db16-1334

PMID:28476930

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5521865/

Abstract

We explored the role of reactive oxygen species (ROS) in the pathogenesis of muscle insulin resistance. We assessed insulin action in vivo with a hyperinsulinemic-euglycemic clamp in mice expressing a mitochondrial-targeted catalase (MCAT) that were fed regular chow (RC) or a high-fat diet (HFD) or underwent an acute infusion of a lipid emulsion. RC-fed MCAT mice were similar to littermate wild-type (WT) mice. However, HFD-fed MCAT mice were protected from diet-induced insulin resistance. In contrast, an acute lipid infusion caused muscle insulin resistance in both MCAT and WT mice. ROS production was decreased in both HFD-fed and lipid-infused MCAT mice and cannot explain the divergent response in insulin action. MCAT mice had subtly increased energy expenditure and muscle fat oxidation with decreased intramuscular diacylglycerol (DAG) accumulation, protein kinase C-θ (PKCθ) activation, and impaired insulin signaling with HFD. In contrast, the insulin resistance with the acute lipid infusion was associated with increased muscle DAG content in both WT and MCAT mice. These studies suggest that altering muscle mitochondrial ROS production does not directly alter the development of lipid-induced insulin resistance. However, the altered energy balance in HFD-fed MCAT mice protected them from DAG accumulation, PKCθ activation, and impaired muscle insulin signaling.

摘要

我们探究了活性氧（ROS）在肌肉胰岛素抵抗发病机制中的作用。我们通过高胰岛素-正常血糖钳夹技术，在表达线粒体靶向过氧化氢酶（MCAT）的小鼠体内评估胰岛素作用，这些小鼠分别喂食常规饲料（RC）、高脂饮食（HFD）或接受脂质乳剂的急性输注。喂食RC的MCAT小鼠与同窝野生型（WT）小鼠相似。然而，喂食HFD的MCAT小鼠对饮食诱导的胰岛素抵抗具有抗性。相比之下，急性脂质输注在MCAT和WT小鼠中均导致肌肉胰岛素抵抗。喂食HFD和接受脂质输注的MCAT小鼠中ROS生成均减少，且无法解释胰岛素作用的不同反应。MCAT小鼠的能量消耗略有增加，肌肉脂肪氧化增加，同时肌肉内二酰甘油（DAG）积累减少、蛋白激酶C-θ（PKCθ）激活以及HFD导致胰岛素信号受损。相比之下，急性脂质输注导致的胰岛素抵抗与WT和MCAT小鼠肌肉DAG含量增加有关。这些研究表明，改变肌肉线粒体ROS生成不会直接改变脂质诱导的胰岛素抵抗的发展。然而，喂食HFD的MCAT小鼠能量平衡的改变使其免受DAG积累、PKCθ激活和肌肉胰岛素信号受损的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8275/5521865/0b9b8d67a80d/db161334f1.jpg

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Mitochondrial-Targeted Catalase Protects Against High-Fat Diet-Induced Muscle Insulin Resistance by Decreasing Intramuscular Lipid Accumulation.线粒体靶向过氧化氢酶通过减少肌肉内脂质积累来预防高脂饮食诱导的肌肉胰岛素抵抗。

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线粒体靶向过氧化氢酶通过减少肌肉内脂质积累来预防高脂饮食诱导的肌肉胰岛素抵抗。

Mitochondrial-Targeted Catalase Protects Against High-Fat Diet-Induced Muscle Insulin Resistance by Decreasing Intramuscular Lipid Accumulation.

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