Effect of chronic melatonin administration on several physiological parameters from old Wistar rats and SAMP8 mice.

UNLABELLED: The effect of melatonin administration on age-induced alterations in hepatocytes, central nervous system, immune system, and skin are reviewed. Twenty-two-month-old Wistar rats and SAMP8 (senescence prone) mice of 10 months of age were used as experimental models. Wistar rats were analyzed untreated or after the chronic administration of melatonin at a dose of 1 mg/kg/day in the drinking water for 10 weeks. At the end of the treatment period, the various parameters were investigated. Results were compared with those of 2-month-old controls. In hepatocytes, aging induced a significant increase in oxidative stress, inflammation, and apoptosis when compared to young animals. Melatonin administration significantly ameliorated all these age-related changes. The impairment of the cardiovascular system with aging appears to contribute to the increased morbidity and mortality of the aged subjects. The process was investigated in SAMP8 mice of 10 months of age. Melatonin was provided for 30 days at two different dosages (1 mg/kg/day and 10 mg/kg/day), also in the drinking water. After treatment, the expression of inflammatory mediators (tumor necrosis factor-α, interleukin 1 and 10, NFκBp50 and NFκBp52), apoptosis markers (BAD, BAX, and Bcl2), and parameters related to oxidative stress (heme oxygenases 1 and 2, endothelial and inducible nitric oxide synthases) were determined in the heart. Inflammation as well as oxidative stress and apoptosis markers were increased in old SAMP8 males, as compared to young controls. After treatment with melatonin, these age-altered parameters were partially reversed. The results suggest that oxidative stress and inflammation increase with aging and that chronic treatment with melatonin is able to reduce these parameters. In the skin, a reduction of epidermal thickness together with a marked increase of the hypodermis with great fat accumulation was observed in old rats, together with an increase in caspase 3, 8 of nucleosomes and LPO and a reduction in Bcl2 levels in the cultured keratinocytes. Melatonin treatment was able to reduce the fat content of the hypodermis and to increase Bcl2 and reduce nucleosomes, caspases, and LPO in keratinocytes. CONCLUSION: Melatonin administration exerts a beneficial effect against age-induced changes in several physiological parameters in Wistar rats and SAMP 8 mice.

Molecular mechanisms involved in the hormonal prevention of aging in the rat.

Previous data from our group have provided support for the role of GH, melatonin and estrogens in the prevention of aging of several physiological parameters from bone, liver metabolism, vascular activity, the central nervous system (CNS), the immune system and the skin. In the present work data on the molecular mechanisms involved are presented. A total of 140 male and female rats have been submitted to different treatments over 10 weeks, between 22 and 24 months of age. Males have been treated with GH and melatonin. Females were divided in two groups: intact and castrated at 12 months of age. The first group was treated with GH and melatonin and the second with the two latter compounds and additionally with estradiol and Phytosoya. Aging was associated with a reduction in the number of neurons of the hylus of the dentate gyrus of the hippocampus and with a reduction of neurogenesis. GH treatment increased the number of neurons but did not increase neurogenesis thus suggesting a reduction of apoptosis. This was supported by the reduction in nucleosomes and the increase in Bcl2 observed in cerebral homogenates together with an increase in sirtuin2 and a reduction of caspases 9 and 3. Melatonin, estrogen and Phytosoya treatments increased neurogenesis but did not enhance the total number of neurons. Aging induced a significant increase in mitochondrial nitric oxide in the hepatocytes, together with a reduction in the mitochondrial fraction content in cytochrome C and an increase of this compound in the cytosolic fraction. Reductions of glutathione peroxidase and glutathione S-transferase were also detected, thus indicating oxidative stress and possibly apoptosis. Treatment for 2.5 months of old rats with GH and melatonin were able to significantly and favourably affect age-induced deteriorations, thus reducing oxidative damage. Keratinocytes obtained from old rats in primary culture showed an increase in lipoperoxides, caspases 8 and 3 as well as a reduction in Bcl2 leading to enhanced number of nucleosomes that was also restored upon treatments with GH and melatonin. In conclusion, GH and melatonin treatment seem to have beneficial effects against age-induced damage in the CNS the liver and the skin through molecular mechanisms reducing oxidative stress and apoptosis.