Acute and severe hypobaric hypoxia-induced muscle oxidative stress in mice: the role of glutathione against oxidative damage

Eur J Appl Physiol. 2004 Mar;91(2-3):185-91. doi: 10.1007/s00421-003-0972-6. Epub 2003 Oct 14.

Abstract

This study intended to analyze: (1) the effects of acute and severe hypoxia exposure on skeletal muscle oxidative stress and oxidative damage markers; (2) the protective role of the antioxidant glutathione against oxidative damage; and (3) the expression of heat shock protein 70 kDa (HSP70) induced by this hypoxic insult. Forty mice were divided into four groups: control + placebo (C+P), hypoxia + placebo (H+P), control + l-buthionine-[ S, R]-sulfoximine (BSO, a GSH-depleting compound) (C+BSO) and hypoxia + BSO (H+BSO). Hypoxia groups were continuously exposed for 24 h to a hypobaric hypoxic environment equivalent to an altitude of 7000 m and sacrificed immediately after. Control groups were maintained at sea level during the experimental protocol. Analyzed biochemical parameters were: reduced (GSH) and oxidized (GSSG) glutathione, thiobarbituric acid reactive substances (TBARS), sulfhydryl protein groups (SH), N-acetyl-beta- d-glucosaminidase (NAG) and HSP70 protein. Hypoxia (H+P) per se, compared to C+P, induced a significant increase in %GSSG (5.68 vs. 1.14%), TBARS (436.7 vs. 227.9 nM), NAG (4.49 vs. 3.35 U/mg) and HSP70 (178.7 vs. 100%). Compared with H+P, H+BSO showed a significant decrease in total glutathione (19.30 vs. 6.13 nmol/mg) and an additional increase in %GSSG (5.68 vs. 11.33%) and in HSP70 expression (178.7 vs. 202.2%). However, no further oxidative damage was observed in H+BSO. These data suggest that acute hypoxia per se might enhance oxidative stress; however, the glutathione system seems to have a modest role in skeletal muscle protection against hypoxia-induced oxidative stress. Moreover, hypoxia and BSO treatment is a sufficient stimulus to promote HSP70 overexpression.

Publication types

  • Comparative Study
  • Evaluation Study

MeSH terms

  • Acute Disease
  • Altitude
  • Altitude Sickness / classification
  • Altitude Sickness / metabolism*
  • Animals
  • Ankle Joint / metabolism
  • Buthionine Sulfoximine / pharmacology*
  • Glutathione / metabolism*
  • HSP70 Heat-Shock Proteins / metabolism*
  • Hypoxia / classification
  • Hypoxia / metabolism
  • Mice
  • Muscle, Skeletal / drug effects
  • Muscle, Skeletal / metabolism*
  • Oxidative Stress*
  • Severity of Illness Index

Substances

  • HSP70 Heat-Shock Proteins
  • Buthionine Sulfoximine
  • Glutathione