Literature DB >> 26912035

Redox control of skeletal muscle atrophy.

Scott K Powers1, Aaron B Morton2, Bumsoo Ahn2, Ashley J Smuder2.   

Abstract

Skeletal muscles comprise the largest organ system in the body and play an essential role in body movement, breathing, and glucose homeostasis. Skeletal muscle is also an important endocrine organ that contributes to the health of numerous body organs. Therefore, maintaining healthy skeletal muscles is important to support overall health of the body. Prolonged periods of muscle inactivity (e.g., bed rest or limb immobilization) or chronic inflammatory diseases (i.e., cancer, kidney failure, etc.) result in skeletal muscle atrophy. An excessive loss of muscle mass is associated with a poor prognosis in several diseases and significant muscle weakness impairs the quality of life. The skeletal muscle atrophy that occurs in response to inflammatory diseases or prolonged inactivity is often associated with both oxidative and nitrosative stress. In this report, we critically review the experimental evidence that provides support for a causative link between oxidants and muscle atrophy. More specifically, this review will debate the sources of oxidant production in skeletal muscle undergoing atrophy as well as provide a detailed discussion on how reactive oxygen species and reactive nitrogen species modulate the signaling pathways that regulate both protein synthesis and protein breakdown.
Copyright © 2016 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Antioxidants; Muscle protein synthesis; Oxidants; Oxidative stress; Proteolysis; Reactive nitrogen species; Reactive oxygen species

Mesh:

Substances:

Year:  2016        PMID: 26912035      PMCID: PMC5006677          DOI: 10.1016/j.freeradbiomed.2016.02.021

Source DB:  PubMed          Journal:  Free Radic Biol Med        ISSN: 0891-5849            Impact factor:   7.376


  102 in total

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5.  Oxidation enhances myofibrillar protein degradation via calpain and caspase-3.

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Journal:  Free Radic Biol Med       Date:  2010-06-30       Impact factor: 7.376

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Authors:  Boris S Shenkman; Tatiana L Nemirovskaya; Yulia N Lomonosova
Journal:  Front Physiol       Date:  2015-10-31       Impact factor: 4.566
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  70 in total

1.  Creatine supplementation in Walker-256 tumor-bearing rats prevents skeletal muscle atrophy by attenuating systemic inflammation and protein degradation signaling.

Authors:  Paola S Cella; Poliana C Marinello; Fernando H Borges; Diogo F Ribeiro; Patrícia Chimin; Mayra T J Testa; Philippe B Guirro; José A Duarte; Rubens Cecchini; Flávia A Guarnier; Rafael Deminice
Journal:  Eur J Nutr       Date:  2019-02-26       Impact factor: 5.614

2.  Cigarette smoke directly impairs skeletal muscle function through capillary regression and altered myofibre calcium kinetics in mice.

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Journal:  J Physiol       Date:  2018-06-19       Impact factor: 5.182

3.  Reduced mitochondrial lipid oxidation leads to fat accumulation in myosteatosis.

Authors:  Jonathan P Gumucio; Austin H Qasawa; Patrick J Ferrara; Afshan N Malik; Katsuhiko Funai; Brian McDonagh; Christopher L Mendias
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Review 4.  Exercise: Teaching myocytes new tricks.

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5.  Uremic metabolites impair skeletal muscle mitochondrial energetics through disruption of the electron transport system and matrix dehydrogenase activity.

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Journal:  Am J Physiol Cell Physiol       Date:  2019-07-10       Impact factor: 4.249

6.  NF-κB expression and its association with nutritional status in hemodialysis patients.

Authors:  Najla E Farage; Milena B Stockler-Pinto; Viviane O Leal; Ludmila Lmf Cardozo; José Carlos Carraro-Eduardo; Denis Fouque; Denise Mafra
Journal:  Int Urol Nephrol       Date:  2016-09-27       Impact factor: 2.370

Review 7.  Edward F. Adolph Distinguished Lecture. Skeletal muscle atrophy: Multiple pathways leading to a common outcome.

Authors:  Sue C Bodine
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Review 8.  Role of Inactivity in Chronic Diseases: Evolutionary Insight and Pathophysiological Mechanisms.

Authors:  Frank W Booth; Christian K Roberts; John P Thyfault; Gregory N Ruegsegger; Ryan G Toedebusch
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9.  Fibroblast growth factor 23 does not directly influence skeletal muscle cell proliferation and differentiation or ex vivo muscle contractility.

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Review 10.  Mitochondrial dysfunction induces muscle atrophy during prolonged inactivity: A review of the causes and effects.

Authors:  Hayden Hyatt; Rafael Deminice; Toshinori Yoshihara; Scott K Powers
Journal:  Arch Biochem Biophys       Date:  2018-11-16       Impact factor: 4.013
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