Peer-Reviewed Journal Details
Mandatory Fields
McDonagh, B;Sakellariou, GK;Smith, NT;Brownridge, P;Jackson, MJ
2014
November
Journal Of Proteome Research
Differential Cysteine Labeling and Global Label-Free Proteomics Reveals an Altered Metabolic State in Skeletal Muscle Aging
Published
Altmetric: 6WOS: 19 ()
Optional Fields
THIOL REDOX PROTEOME OXIDATIVE STRESS CONTRACTILE ACTIVITY NITROSATIVE STRESS MITOCHONDRIAL GENERATION ENZYMES DISEASE CARDIOMYOCYTE HOMEOSTASIS
13
5008
5021
The molecular mechanisms underlying skeletal muscle aging and associated sarcopenia have been linked to an altered oxidative status of redox-sensitive proteins. Reactive oxygen and reactive nitrogen species (ROS/RNS) generated by contracting skeletal muscle are necessary for optimal protein function, signaling, and adaptation. To investigate the redox proteome of aging gastrocnemius muscles from adult and old male mice, we developed a label-free quantitative proteomic approach that includes a differential cysteine labeling step. The approach allows simultaneous identification of up- and downregulated proteins between samples in addition to the identification and relative quantification of the reversible oxidation state of susceptible redox cysteine residues. Results from muscles of adult and old mice indicate significant changes in the content of chaperone, glucose metabolism, and cytoskeletal regulatory proteins, including Protein DJ-1, cAMP-dependent protein kinase type II, 78 kDa glucose regulated protein, and a reduction in the number of redox-responsive proteins identified in muscle of old mice. Results demonstrate skeletal muscle aging causes a reduction in redox-sensitive proteins involved in the generation of precursor metabolites and energy metabolism, indicating a loss in the flexibility of the redox energy response. Data is available via ProteomeXchange with identifier PXD001054.
1535-3893
10.1021/pr5006394
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