1. Proteomic analysis of altered protein expression in skeletal muscle of rats in a hypermetabolic state induced by burn sepsis
- Author
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David M. Yarmush, Martin L. Yarmush, Xunbao Duan, and Francois Berthiaume
- Subjects
Male ,Proteomics ,Muscle Fibers, Skeletal ,Down-Regulation ,Protein degradation ,Biology ,Biochemistry ,Antioxidants ,Rats, Sprague-Dawley ,Peptide mass fingerprinting ,Sepsis ,Heat shock protein ,medicine ,Protein biosynthesis ,Animals ,HSP70 Heat-Shock Proteins ,Muscle, Skeletal ,Molecular Biology ,Cells, Cultured ,Skeletal muscle ,Hydrogen Peroxide ,Cell Biology ,Molecular biology ,Muscle atrophy ,Rats ,Hsp70 ,Muscular Atrophy ,Oxidative Stress ,medicine.anatomical_structure ,Protein Biosynthesis ,HSP60 ,medicine.symptom ,Burns ,Molecular Chaperones ,Research Article - Abstract
mRNA profiling has been extensively used to study muscle wasting. mRNA level changes may not reflect that of proteins, especially in catabolic muscle where there is decreased synthesis and increased degradation. As sepsis is often associated with burn injury, and burn superimposed by sepsis has been shown to result in significant loss of lean tissues, we characterized changes in the skeletal-muscle proteome of rats subjected to a cutaneous burn covering 20% of the total body surface area, followed 2 days later by sepsis induced by CLP (caecal ligation and puncture). EDL (extensor digitorum longus) muscles were dissected from Burn-CLP animals (n=4) and controls (sham-burned and sham-CLP-treated, n=4). Burn-CLP injury resulted in a rapid loss of EDL weight, increased ubiquitin-conjugated proteins and increased protein carbonyl groups. EDL protein profiles were obtained by two-dimensional gel electrophoresis using two immobilized pH gradient strips with overlapping pH range covering a pH 3–8 range. Seventeen spots were significantly altered in the Burn-CLP compared with the control group, representing 15 different proteins identified by peptide mass fingerprinting. The identities of three proteins including transferrin were further confirmed by liquid chromatography–tandem MS. The significant changes in transferrin and HSP27 (heat-shock protein 27) were verified by Western-blot analysis. HSP60, HSP27 and HSPβ6 were down-regulated, along with HSP70, as detected by Western blotting. Six metabolic enzymes related to energy production were also down-regulated. A simultaneous decrease in chaperone proteins and metabolic enzymes could decrease protein synthesis. Furthermore, decreased HSPs could increase oxidative damage, thus accelerating protein degradation. Using cultured C2C12 myotubes, we showed that H2O2-induced protein degradation in vitro could be partially attenuated by prior heat-shock treatment, consistent with a protective role of HSP70 and/or other HSPs against proteolysis.
- Published
- 2006
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