Abstract
Treatment of mice or rats with a single intraperitoneal dose of [ 14C]-bromobenzene or [ 14C]-chlorobenzene produced necrosis of the proximal convoluted renal tubules within 24–48 hr. The development of renal necrosis was associated with the covalent binding of substantial amounts of radiolabeled material to kidney proteins, and autoradiograms revealed that most of the covalently bound material was localized within the necrotic tubular cells. Prior inhibition of [ 14C]-bromobenzene metabolism in vivo with piperonyl butoxide blocked both the necrosis and the binding, suggesting that the necrosis and binding are caused by a toxic metabolite. Studies on the metabolism and covalent binding of [ 14C]-bromobenzene in hepatic and renal microsomes in vitro were compatible with the interpretation that the renal necrosis was caused by a metabolite formed in the liver and transported by the circulation to binding sites in the renal tubules.
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