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Transcriptional co-activator PGC-1α drives the formation of slow-twitch muscle fibres | Nature
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The biochemical basis for the regulation of fibre-type determination in skeletal muscle is not well understood. In addition to the expression of particular myofibrillar proteins, type I (slow-twitch) fibres are much higher in mitochondrial content and are more dependent on oxidative metabolism than type II (fast-twitch) fibres1. We have previously identified a transcriptional co-activator, peroxisome-proliferator-activated receptor-γ co-activator-1 (PGC-1α), which is expressed in several tissues including brown fat and skeletal muscle, and that activates mitochondrial biogenesis and oxidative metabolism2,3,4. We show here that PGC-1α is expressed preferentially in muscle enriched in type I fibres. When PGC-1α is expressed at physiological levels in transgenic mice driven by a muscle creatine kinase (MCK) promoter, a fibre type conversion is observed: muscles normally rich in type II fibres are redder and activate genes of mitochondrial oxidative metabolism. Notably, putative type II muscles from PGC-1α transgenic mice also express proteins characteristic of type I fibres, such as troponin I (slow) and myoglobin, and show a much greater resistance to electrically stimulated fatigue. Using fibre-type-specific promoters, we show in cultured muscle cells that PGC-1α activates transcription in cooperation with Mef2 proteins and serves as a target for calcineurin signalling, which has been implicated in slow fibre gene expression. These data indicate that PGC-1α is a principal factor regulating muscle fibre type determination.
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article, muscle, cas, google, scholar, nature, skeletal, coactivator, type, access, cell, content, transcriptional, expression, mitochondrial, biol, pgcα, fibre, fibres, mice, slow, pgc, cookies, physiol, usa, medical, texas, privacy, data, biogenesis, gene, open, peroxisome, receptor, mol, department, function, formation, lin, olson, proteins, transgenic, kinase, mef, calcineurin, proliferatoractivated, regulates, control, pathway, center,
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peroxisome-proliferator-activated receptor-γ nature portfolio permissions reprints privacy policy fast-fibre-type-specific regulatory elements advertising muscle development social media nature 413 nature 418 nature author information authors regulates mitochondrial biogenesis fibre-type-specific promoters fibre-type-specific transcription metachromatic dye-atpase method insulin-sensitive glucose transporter pgc-1α activates transcription author correspondence calcineurin-dependent pathway pgc-1α transgenic mice activator pgc-1α drives springerlink instant access fibre-type determination activates mitochondrial biogenesis slow-twitch muscle fibres cardiac muscle expression multiple calcium-regulated signals permissions content muscle regulator thermogenic coactivator pgc-1 coactivator pgc-1 cooperates cold-inducible coactivator transcriptional coactivator pgc-1 muscle creatine kinase personal data fibre type conversion regulates contractile mitochondrial content data protection nuclear receptors linked skeletal muscle slow chen-yu zhang privacy myocyte enhancer factor-2 transgenic mice driven generating transgenic mice nuclear signalling networks skeletal muscle results skeletal muscle elizabeth
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description:The biochemical basis for the regulation of fibre-type determination in skeletal muscle is not well understood. In addition to the expression of particular myofibrillar proteins, type I (slow-twitch) fibres are much higher in mitochondrial content and are more dependent on oxidative metabolism than type II (fast-twitch) fibres1. We have previously identified a transcriptional co-activator, peroxisome-proliferator-activated receptor-γ co-activator-1 (PGC-1α), which is expressed in several tissues including brown fat and skeletal muscle, and that activates mitochondrial biogenesis and oxidative metabolism2,3,4. We show here that PGC-1α is expressed preferentially in muscle enriched in type I fibres. When PGC-1α is expressed at physiological levels in transgenic mice driven by a muscle creatine kinase (MCK) promoter, a fibre type conversion is observed: muscles normally rich in type II fibres are redder and activate genes of mitochondrial oxidative metabolism. Notably, putative type II muscles from PGC-1α transgenic mice also express proteins characteristic of type I fibres, such as troponin I (slow) and myoglobin, and show a much greater resistance to electrically stimulated fatigue. Using fibre-type-specific promoters, we show in cultured muscle cells that PGC-1α activates transcription in cooperation with Mef2 proteins and serves as a target for calcineurin signalling, which has been implicated in slow fibre gene expression. These data indicate that PGC-1α is a principal factor regulating muscle fibre type determination.
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