Depletion of HuR in murine skeletal muscle enhances exercise endurance and prevents cancer-induced muscle atrophy

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作者
Brenda Janice Sánchez
Anne-Marie K. Tremblay
Jean-Philippe Leduc-Gaudet
Derek T. Hall
Erzsebet Kovacs
Jennifer F. Ma
Souad Mubaid
Patricia L. Hallauer
Brittany L. Phillips
Katherine E. Vest
Anita H. Corbett
Dimitris L. Kontoyiannis
Sabah N. A. Hussain
Kenneth E. M. Hastings
Sergio Di Marco
Imed-Eddine Gallouzi
机构
[1] McGill University,Department of Biochemistry
[2] 3655 Promenade Sir William Osler,Meakins
[3] Rosalind & Morris Goodman Cancer Research Center,Christie Laboratories, Translational Research in Respiratory Diseases Program, and Department of Critical Care
[4] McGill University,Montreal Neurological Institute
[5] 3655 Promenade Sir William Osler,Department of Biology
[6] McGill University Health Centre Research Institute,Department of Molecular Genetics, Biochemistry, & Microbiology
[7] McGill University,Aristotle University of Thessaloniki, School of Biology
[8] Emory University,undefined
[9] University of Cincinnati College of Medicine,undefined
[10] 231 Albert Sabin Way,undefined
[11] Biomedical Sciences Research Centre “Alexander Fleming”,undefined
[12] Institute of Fundamental Biomedical Research,undefined
[13] Department of Genetics,undefined
[14] Development & Molecular Biology,undefined
来源
Nature Communications | / 10卷
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摘要
The master posttranscriptional regulator HuR promotes muscle fiber formation in cultured muscle cells. However, its impact on muscle physiology and function in vivo is still unclear. Here, we show that muscle-specific HuR knockout (muHuR-KO) mice have high exercise endurance that is associated with enhanced oxygen consumption and carbon dioxide production. muHuR-KO mice exhibit a significant increase in the proportion of oxidative type I fibers in several skeletal muscles. HuR mediates these effects by collaborating with the mRNA decay factor KSRP to destabilize the PGC-1α mRNA. The type I fiber-enriched phenotype of muHuR-KO mice protects against cancer cachexia-induced muscle loss. Therefore, our study uncovers that under normal conditions HuR modulates muscle fiber type specification by promoting the formation of glycolytic type II fibers. We also provide a proof-of-principle that HuR expression can be targeted therapeutically in skeletal muscles to combat cancer-induced muscle wasting.
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