Abstract
The relationship between the metabolism of alpha-tocopherol (alpha-T) (vitamin E) and that of ascorbic acid (vitamin C) was examined in cultured hepatocytes intoxicated with tert-butyl hydroperoxide (TBHP). Unlike vitamin E, the cellular content of vitamin C did not decline after overnight culturing of freshly prepared hepatocytes. In addition, this basal vitamin C content was not affected by the presence of alpha-T phosphate in the overnight culture medium. Supplementation of the overnight culture medium with vitamin C (10 microM to 10 mM) increased the cellular content of vitamin C by > 1 order of magnitude. Increasing the cellular content of ascorbate increased the protection against TBHP toxicity, with or without the presence of a physiological content of vitamin E. In vitamin E-supplemented cells, a loss of alpha-T occurred within 15 min of exposure to TBHP and before the decrease in cellular ascorbate content. The vitamin C content declined in parallel with the loss of cell viability. Supplementation of the overnight culture medium with increasing concentrations of ascorbate progressively spared the depletion of alpha-T while preventing the cell killing. Pretreatment with the ferric iron chelator deferoxamine or the antioxidant N,N'-diphenyl-1,4-phenylenediamine prevented the loss of ascorbate and the cell killing by TBHP in hepatocytes either sufficient or deficient in alpha-T. However, neither alpha-T nor ascorbate prevented the accumulation of DNA single-strand breaks caused by TBHP, indicating that these vitamins do not effectively scavenge the TBHP-derived radicals responsible for DNA damage. The data in the present study indicate that vitamins E and C act as independent antioxidants and that ascorbate does not regenerate alpha-T in cultured rat hepatocytes.
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