Proteins modulation in human skeletal muscle in the early phase of adaptation to hypobaric hypoxia

Autor: Viganò A. 1, 2, Ripamonti M. 2, De Palma S. 2, 3, Capitanio D. 1, Vasso M. 1, Wait R. 4, Lundby C. 5, 6, Cerretelli P. 2, Gelfi C. 1
Rok vydání: 2008
Předmět:
Zdroj: Proteomics (Weinh., Print) 8 (2008): 4668–4679.
info:cnr-pdr/source/autori:Viganò A. 1,2, Ripamonti M. 2, De Palma S. 2,3, Capitanio D. 1,2, Vasso M. 1,2, Wait R. 4, Lundby C. 5,6, Cerretelli P. 2, Gelfi C. 1,2/titolo:Proteins modulation in human skeletal muscle in the early phase of adaptation to hypobaric hypoxia./doi:/rivista:Proteomics (Weinh., Print)/anno:2008/pagina_da:4668/pagina_a:4679/intervallo_pagine:4668–4679/volume:8
Popis: High altitude hypoxia is a paraphysiological condition triggering redox status disturbances of cell organization leading, via oxidative stress, to proteins, lipids, and DNA damage. In man, skeletal muscle, after prolonged exposure to hypoxia, undergoes mass reduction and alterations at the cellular level featuring a reduction of mitochondrial volume density, accumulation of lipofuscin, a product of lipid peroxidation, and dysregulation of enzymes whose time course is unknown. The effects of 7-9 days exposure to 4559 m (Margherita Hut, Monte Rosa, Italy) on the muscle proteins pattern were investigated, pre- and post-exposure, in ten young subjects, by 2-D DIGE and MS. Ten milligram biopsies were obtained from the mid part of the vastus lateralis muscle at sea level (control) and at altitude, after 7-9 days hypoxia. Differential analysis indicates that proteins involved in iron transport, tricarboxylic acid (TCA) cycle, oxidative phosphorylation, and oxidative stress responses were significantly (p
Databáze: OpenAIRE