Stress, aging and reliability of antioxidant enzyme defense.

Clinical and experimental data point to existence of disturbances of adaptive ability of aged organism to extreme impacts. However mechanisms of these disturbances are not clear yet. The purpose of the investigation was to study age-related changes in reaction of erythrocyte antioxidant enzyme system in response to acute psycho-emotional stress and a possible role of these changes in age-related alterations of oxygen blood transport in nonhuman primates. Ten young (6-8 years) and ten old (20-26 years) healthy female rhesus monkeys were subjected to acute moderate psycho-emotional stress (two hours squeeze cage restraint) at 1500h. Plasma cortisol, lipid peroxidation products (TBARS) and activities of superoxide dismutase (SOD), glutathione peroxidase, gluthatione reductase (GR), and gluthatione-S-transferase in erythrocytes were measured before stress and at 30, 60, 120, 240 min and 24 hours after beginning of the stress. We have found for the first time that SOD activity decreased in response to the stress in young monkeys while it increased in the half of old monkeys. Young animals also demonstrated essentially higher increase in GR activity and plasma cortisol level in response to the restraint in comparison with old monkeys. Level of TBARS did not practically change in response to the stress in young animals and significantly increased in old monkeys. The study demonstrated that the age-related alterations in SOD and GR stress responsiveness lead to activation of peroxide oxidation of lipids that may be considered as an important factor of aging damage of erythrocyte functioning and reliability of oxygen transport to tissues under stress conditions.

Correlation between activity of antioxidant enzymes and circadian rhythms of corticosteroids in Macaca mulatta monkeys of different age.

Young rhesus monkey females (Macaca mulatta) demonstrate the well-defined circadian rhythm in activity of erythrocyte SOD with maximum at 10.00 h and minimum at 22.00 h. However, neither GSH-Px nor GR demonstrated any significant circadian changes, contrastingly to SOD. The diurnal changes in the SOD activity tightly correlate with the diurnal changes in the levels of cortisol and DHEAS in the animals' blood plasma. With aging, these circadian rhythms of SOD, cortisol and DHEAS are smoothed out although the correlation between the diurnal changes in cortisol and SOD still maintains even for old animals. These results suggest that corticosteroids play an essential role in regulation of the SOD activity and that the reliability of the hormonal regulation decreases with aging.