P.C. Kesavan scite author profile

Caffeine (1,3,7-trimethyl xanthine), an ingredient of coffee, has been investigated for its potential antioxidant activity against oxidative damage to rat liver microsomes. Such damage was induced by three reactive oxygen species of cardinal importance in causing membrane damage in vivo namely hydroxyl radical (.OH), peroxyl radical (ROO.) and singlet oxygen (1O2). The results obtained showed that caffeine was an effective inhibitor of lipid peroxidation, at millimolar concentrations, against all the three reactive species. The extent of inhibition was high against peroxidation induced by .OH, medium against 1O2 and low against ROO. In general, the antioxidant ability of caffeine was similar to that of the established biological antioxidant glutathione and significantly higher than ascorbic acid. Investigations into the possible mechanisms involved in the observed antioxidant effect reveal that the quenching of these reactive species by caffeine may be one of the possible factor responsible. The rate constant of caffeine with .OH was 7.3 x 10(9) M-1 s-1 and with 1O2 it was 2.9 x 10(7) M-1 s-1. Considering their potential for damage, half-life estimates and generation in biological systems, the ability of caffeine to inhibit oxidative damage induced by these reactive species in membranes suggest one more positive attribute of caffeine, whose daily intake as coffee may be considerable in most populations.

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Protective Effects of Vitamins C and E Against γ-ray-induced Chromosomal Damage in Mouse

Sarma

Kesavan

1993

International Journal of Radiation Biology

112

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The effects of vitamins C and E on bone marrow chromosomes of the mouse exposed to 1 Gy of whole-body gamma-irradiation were studied. These vitamins, dissolved in water/peanut oil, were administered orally as acute doses, either 2 h before, immediately after, or 2 h after irradiation. Both vitamins significantly reduced the frequencies of micronuclei and chromosomal aberrations in bone marrow cells; radioprotection by vitamin E was, however, appreciably greater than that afforded by vitamin C. Administration of the vitamins to mice immediately after irradiation was as effective as that 2 h before irradiation. A sequential treatment consisting of both these vitamins did not result in additional radioprotection over that afforded by vitamin E alone. The probable mechanisms of radioprotection are discussed.

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Protective effects of chlorogenic acid, curcumin and β-carotene against γ-radiation-induced in vivo chromosomal damage

Abraham¹,

Sarma²,

Kesavan³

1993

Mutation Research Letters

132

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Caffeine protects mice against whole-body lethal dose of gamma-irradiation

et al. 1999

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Administration of caffeine (1,3,7-trimethylxanthine), a major component of coffee, to Swiss mice at doses of 80 or 100 mg/kg body weight 60 min prior to whole-body lethal dose of gamma-irradiation (7.5 Gy) resulted in the survival of 70 and 63% of animals, respectively, at the above doses in contrast to absolutely no survivors (LD-100/25 days) in the group exposed to radiation alone. Pre-treatment with a lower concentration of caffeine (50 mg/kg) did not confer any radioprotection. The protection exerted by caffeine (80 mg/kg), however, was reduced from 70 to 50% if administered 30 min prior to irradiation. The trend statistics reveal that a dose of 80 mg/kg administered 60 min before whole-body exposure to 7.5 Gy is optimal for maximal radioprotection. However, caffeine (80 mg/kg) administered within 3 min after irradiation offered no protection. While there is documentation in the literature that caffeine is an antioxidant and radioprotector against the oxic pathway of radiation damage in a wide range of cells and organisms, this is the first report demonstrating unequivocally its potent radioprotective action in terms of survival of lethally whole-body irradiated mice.

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In vivo radioprotection with garlic extract

Singh

Abraham

Kesavan

1995

Mutation Research/Genetic Toxicology

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P.C. Kesavan

Caffeine as an antioxidant: inhibition of lipid peroxidation induced by reactive oxygen species

Protective Effects of Vitamins C and E Against γ-ray-induced Chromosomal Damage in Mouse

Protective effects of chlorogenic acid, curcumin and β-carotene against γ-radiation-induced in vivo chromosomal damage

Caffeine protects mice against whole-body lethal dose of gamma-irradiation

In vivo radioprotection with garlic extract

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