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The effects of PGC-1α on control of microvascular P(O2) kinetics following onset of muscle contractions.PGC-1α对肌肉收缩开始后微血管P(O2)动力学控制的影响。
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Protectin DX alleviates insulin resistance by activating a myokine-liver glucoregulatory axis.保护素 DX 通过激活肌肉因子-肝脏糖调节轴来缓解胰岛素抵抗。
Nat Med. 2014 Jun;20(6):664-9. doi: 10.1038/nm.3549. Epub 2014 May 11.
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PGC-1α-mediated branched-chain amino acid metabolism in the skeletal muscle.骨骼肌中PGC-1α介导的支链氨基酸代谢
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Statistical hypothesis testing of factor loading in principal component analysis and its application to metabolite set enrichment analysis.主成分分析中因子载荷的统计假设检验及其在代谢物集富集分析中的应用。
BMC Bioinformatics. 2014 Feb 21;15:51. doi: 10.1186/1471-2105-15-51.
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Endothelial PGC-1α mediates vascular dysfunction in diabetes.内皮细胞中的过氧化物酶体增殖物激活受体γ共激活因子1α(PGC-1α)介导糖尿病中的血管功能障碍。
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A novel lysophosphatidic acid acyltransferase enzyme (LPAAT4) with a possible role for incorporating docosahexaenoic acid into brain glycerophospholipids.一种新型溶血磷脂酸酰基转移酶酶(LPAAT4),可能在将二十二碳六烯酸纳入脑甘油磷脂中发挥作用。
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Lipidomics analysis revealed the phospholipid compositional changes in muscle by chronic exercise and high-fat diet.脂质组学分析揭示了慢性运动和高脂肪饮食对肌肉中磷脂成分的变化。
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Acute exercise remodels promoter methylation in human skeletal muscle.急性运动重塑人类骨骼肌启动子甲基化。
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Fatty acid profile of skeletal muscle phospholipid is altered in mdx mice and is predictive of disease markers.mdx 小鼠骨骼肌磷脂脂肪酸谱发生改变,并可预测疾病标志物。
Metabolism. 2012 Jun;61(6):801-11. doi: 10.1016/j.metabol.2011.10.019. Epub 2011 Dec 28.
10
Skeletal muscle-specific expression of PGC-1α-b, an exercise-responsive isoform, increases exercise capacity and peak oxygen uptake.骨骼肌特异性表达的 PGC-1α-b,一种对运动有反应的同工型,可增加运动能力和最大摄氧量。
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PGC-1α介导的运动训练骨骼肌磷脂谱变化。

PGC-1α-mediated changes in phospholipid profiles of exercise-trained skeletal muscle.

作者信息

Senoo Nanami, Miyoshi Noriyuki, Goto-Inoue Naoko, Minami Kimiko, Yoshimura Ryoji, Morita Akihito, Sawada Naoki, Matsuda Junichiro, Ogawa Yoshihiro, Setou Mitsutoshi, Kamei Yasutomi, Miura Shinji

机构信息

Laboratories of Nutritional Biochemistry Graduate School of Nutritional and Environmental Sciences, University of Shizuoka, Suruga-ku, Shizuoka 422-8526, Japan.

Biochemistry, Graduate School of Nutritional and Environmental Sciences, University of Shizuoka, Suruga-ku, Shizuoka 422-8526, Japan.

出版信息

J Lipid Res. 2015 Dec;56(12):2286-96. doi: 10.1194/jlr.M060533. Epub 2015 Oct 5.

DOI:10.1194/jlr.M060533
PMID:26438561
原文链接:
https://pmc.ncbi.nlm.nih.gov/articles/PMC4655985/
Abstract

Exercise training influences phospholipid fatty acid composition in skeletal muscle and these changes are associated with physiological phenotypes; however, the molecular mechanism of this influence on compositional changes is poorly understood. Peroxisome proliferator-activated receptor γ coactivator 1α (PGC-1α), a nuclear receptor coactivator, promotes mitochondrial biogenesis, the fiber-type switch to oxidative fibers, and angiogenesis in skeletal muscle. Because exercise training induces these adaptations, together with increased PGC-1α, PGC-1α may contribute to the exercise-mediated change in phospholipid fatty acid composition. To determine the role of PGC-1α, we performed lipidomic analyses of skeletal muscle from genetically modified mice that overexpress PGC-1α in skeletal muscle or that carry KO alleles of PGC-1α. We found that PGC-1α affected lipid profiles in skeletal muscle and increased several phospholipid species in glycolytic muscle, namely phosphatidylcholine (PC) (18:0/22:6) and phosphatidylethanolamine (PE) (18:0/22:6). We also found that exercise training increased PC (18:0/22:6) and PE (18:0/22:6) in glycolytic muscle and that PGC-1α was required for these alterations. Because phospholipid fatty acid composition influences cell permeability and receptor stability at the cell membrane, these phospholipids may contribute to exercise training-mediated functional changes in the skeletal muscle.

摘要

运动训练会影响骨骼肌中的磷脂脂肪酸组成,且这些变化与生理表型相关;然而,这种影响对组成变化的分子机制却知之甚少。过氧化物酶体增殖物激活受体γ共激活因子1α(PGC-1α)作为一种核受体共激活因子,可促进线粒体生物合成、纤维类型向氧化型纤维的转变以及骨骼肌中的血管生成。由于运动训练会诱导这些适应性变化,同时PGC-1α水平升高,PGC-1α可能促成了运动介导的磷脂脂肪酸组成变化。为了确定PGC-1α的作用,我们对骨骼肌中过表达PGC-1α或携带PGC-1α基因敲除等位基因的转基因小鼠的骨骼肌进行了脂质组学分析。我们发现PGC-1α影响骨骼肌中的脂质谱,并增加了糖酵解型肌肉中的几种磷脂种类,即磷脂酰胆碱(PC)(18:0/22:6)和磷脂酰乙醇胺(PE)(18:0/22:6)。我们还发现运动训练增加了糖酵解型肌肉中的PC(18:0/22:6)和PE(18:0/22:6),且这些变化需要PGC-1α的参与。由于磷脂脂肪酸组成会影响细胞膜的细胞通透性和受体稳定性,这些磷脂可能促成了运动训练介导的骨骼肌功能变化。