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Sci Rep ; 8(1): 17772, 2018 12 11.
Artigo em Inglês | MEDLINE | ID: mdl-30538258

RESUMO

Given the association between high aerobic capacity and the prevention of metabolic diseases, elucidating the mechanisms by which high aerobic capacity regulates whole-body metabolic homeostasis is a major research challenge. Oxidative post-translational modifications (Ox-PTMs) of proteins can regulate cellular homeostasis in skeletal and cardiac muscles, but the relationship between Ox-PTMs and intrinsic components of oxidative energy metabolism is still unclear. Here, we evaluated the Ox-PTM profile in cardiac and skeletal muscles of rats bred for low (LCR) and high (HCR) intrinsic aerobic capacity. Redox proteomics screening revealed different cysteine (Cys) Ox-PTM profile between HCR and LCR rats. HCR showed a higher number of oxidized Cys residues in skeletal muscle compared to LCR, while the opposite was observed in the heart. Most proteins with differentially oxidized Cys residues in the skeletal muscle are important regulators of oxidative metabolism. The most oxidized protein in the skeletal muscle of HCR rats was malate dehydrogenase (MDH1). HCR showed higher MDH1 activity compared to LCR in skeletal, but not cardiac muscle. These novel findings indicate a clear association between Cys Ox-PTMs and aerobic capacity, leading to novel insights into the role of Ox-PTMs as an essential signal to maintain metabolic homeostasis.


Assuntos
Cisteína/metabolismo , Metabolismo Energético/fisiologia , Estresse Oxidativo/fisiologia , Animais , Respiração Celular , Tolerância ao Exercício/fisiologia , Malato Desidrogenase/metabolismo , Masculino , Músculo Esquelético/metabolismo , Miocárdio/metabolismo , Oxirredução , Condicionamento Físico Animal/fisiologia , Resistência Física/fisiologia , Processamento de Proteína Pós-Traducional/fisiologia , Ratos , Corrida/fisiologia
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