Effect of sodium selenite upon bromobenzene toxicity in rats: II. Metabolism

Abstract

The effects of sodium selenite (12.5 or 30 μmol/kg, ip) upon bromobenzene metabolism were examined in male rats treated with selenite at 72 hr prior to bromobenzene exposure (7.5 mmol/kg, ip). The inhibitory nature of selenium treatment upon xenobiotic metabolism and increased production of hepatic thiol suggested that selenite might affect metabolic activation and detoxification of bromobenzene. Selenite treatment lowered in vivo covalent binding of [ 14C]bromobenzene while the in vitro covalent binding of [ 14C]bromobenzene in microsomes isolated from selenite-treated rats was unaffected compared to control. When the rate of [ 14C]bromobenzene decline in whole blood was evaluated in selenite-treated rats over 48 hr after bromobenzene administration, no significant differences were observed when compared to control. Furthermore, values of glutathione conjugates and hydroxylated metabolites of bromobenzene were similar in urine samples collected over 48 hr from selenite and control rats. Mechanistically, reduction of bromobenzene hepatotoxicity by selenite is not mediated through an altered metabolism of bromobenzene, but by alteration of cellular events occurring after metabolic activation.