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Neuroendocrinology Letters Vol. 21 No. 6 Contents
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Neuroendocrinology Letters incl. Psychoneuroimmunology & Chronobiology


Neuroendocrinology Letters incl. Psychoneuroimmunology & Chronobiology,
ISSN 0172–780X Copyright © 2000 Neuroendocrinology Letters

NEL VOL. 21 No. 6

2000; 21:461-468
pii: NEL21062000A006


Melatonin protects against oxidative stress induced by the kidney carcinogen KBrO3
by Gamal H. El-Sokkary

melatonin; KBrO3; lipid peroxidation; oxidative stress; histopathology


OBJECTIVES: Free radical scavengers can protect against the genotoxicity induced by chemical carcinogens by decreasing oxidative stress. The protective effect of the antioxidant melatonin was studied in the kidney and liver of rats treated with the kidney-specific carcinogen potassium bromate (KBrO3). The major endpoint of oxidative damage measured in this report was lipid peroxidation.

METHODS: Four groups of male rats (controls, melatonin-injected [10 mg/kg x4], KBrO3-injected [100 mg/kg], and melatonin+KBrO3) were used in the current study. The concentrations of malondialdehyde (MDA) were assayed as an index of oxidatively damaged lipid in the kidney and liver.

RESULTS: Twenty-four hours after KBrO3 administration, MDA levels were significantly increased in the kidney while the increase in the liver was not statistically significant compared to levels in control rats. The percentage increases in lipid peroxidation products were 32.8% and 12.6% for the kidney and liver, respectively. In rats given melatonin 30 minutes before KBrO3, and three more times after KBrO3 (i.e., every 6 hours), the increase in MDA levels was reduced in the kidney. Histopathological examination demonstrated marked changes in the structure of the kidney and slight changes in the liver. In the kidney, microscopic examination revealed atypical tubules, atypical hyperplasia, hyaline droplet degeneration, necrotic changes and stratified squamous cell metaplasia. Again, melatonin treatment inhibited the tissue damage associated with KBrO3 administration.

CONCLUSION: These results show that melatonin as an antioxidant and free radical scavenger can prevent oxidative stress induced by the carcinogen KBrO3.


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