Understanding the relationship between physical exercise, reactive oxygen species, and skeletal muscle modification is important in order to better identify the benefits or the damages that appropriate or inappropriate exercise can induce. Heart and skeletal muscles have a high density of mitochondria with robust energetic demands, and mitochondria plasticity has an important role in both the cardiovascular system and skeletal muscle responses. The aim of this study was to investigate the influence of regular physical activity on the oxidation profiles of mitochondrial proteins from heart and tibialis anterior muscles. To this end, we used the mouse as animal model. Mice were divided into two groups: untrained and regularly trained. The carbonylated protein pattern was studied by two-dimensional gel electrophoresis followed by Western blot with anti-dinitrophenyl hydrazone antibodies. Mass spectrometry analysis allowed the identification of several different protein oxidation sites, including methionine, cysteine, proline, and leucine residues. A large number of oxidized proteins were found in both untrained and trained animals. Moreover, mitochondria from skeletal muscles and heart showed almost the same carbonylation pattern. Interestingly, exercise training seems to increase the carbonylation level mainly of mitochondrial proteins from skeletal muscle.

Profiling carbonylated proteins in heart and skeletal muscle mitochondria from trained and untrained mice / Carpentieri, A.; Gamberi, T.; Modesti, A.; Amoresano, A.; Colombini, B.; Nocella, M.; Bagni, M.A.; Fiaschi, T.; Barolo, L.; Gulisano, M.; Magherini, F.. - In: JOURNAL OF PROTEOME RESEARCH. - ISSN 1535-3907. - ELETTRONICO. - 15:(2016), pp. 3666-3678. [10.1021/acs.jproteome.6b00475]

Profiling carbonylated proteins in heart and skeletal muscle mitochondria from trained and untrained mice

GAMBERI, TANIA;MODESTI, ALESSANDRA;COLOMBINI, BARBARA;BAGNI, MARIA ANGELA;FIASCHI, TANIA;GULISANO, MASSIMO;MAGHERINI, FRANCESCA
2016

Abstract

Understanding the relationship between physical exercise, reactive oxygen species, and skeletal muscle modification is important in order to better identify the benefits or the damages that appropriate or inappropriate exercise can induce. Heart and skeletal muscles have a high density of mitochondria with robust energetic demands, and mitochondria plasticity has an important role in both the cardiovascular system and skeletal muscle responses. The aim of this study was to investigate the influence of regular physical activity on the oxidation profiles of mitochondrial proteins from heart and tibialis anterior muscles. To this end, we used the mouse as animal model. Mice were divided into two groups: untrained and regularly trained. The carbonylated protein pattern was studied by two-dimensional gel electrophoresis followed by Western blot with anti-dinitrophenyl hydrazone antibodies. Mass spectrometry analysis allowed the identification of several different protein oxidation sites, including methionine, cysteine, proline, and leucine residues. A large number of oxidized proteins were found in both untrained and trained animals. Moreover, mitochondria from skeletal muscles and heart showed almost the same carbonylation pattern. Interestingly, exercise training seems to increase the carbonylation level mainly of mitochondrial proteins from skeletal muscle.
2016
15
3666
3678
Goal 3: Good health and well-being for people
Carpentieri, A.; Gamberi, T.; Modesti, A.; Amoresano, A.; Colombini, B.; Nocella, M.; Bagni, M.A.; Fiaschi, T.; Barolo, L.; Gulisano, M.; Magherini, F...espandi
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Descrizione: Profiling Carbonylated Proteins in Heart and Skeletal Muscle Mitochondria from Trained and Untrained Mice.
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1051750
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