Abstract
Cocaine-mediated hepatotoxicity (CMH) requires cocaine (CCN) bioactivation by microsomal monooxygenase enzymes that results in cell death. Proposed mechanisms of toxicity involve reactive metabolites that covalently bind to hepatocellular proteins, depletion of cellular reducing equivalents through redox cycling, and/or the generation of reactive oxygen and nitrogen species that alter lipids and proteins. We have previously shown that phencyclidine (PCP) pretreatment potentiated CMH in CF-1 mice without increasing in vitro N-demethylation or N-hydroxylation of CCN. We have now further characterized PCP-potentiated CMH and determined that it is a dose- and time-dependent process, with PCP doses as low as 2.5 mg/kg for 3 days significantly increasing CMH. Immunohistochemistry and histology of livers from mice pretreated with PCP before CCN administration revealed a marked correlation between the regions of CCN metabolite binding and that of necrosis, whereas there was little binding or necrosis in vehicle-pretreated mice. Although hepatic GSH levels were not altered after repetitive PCP treatment alone, a sustained decrease (at least 6 h) in these levels was observed following CCN administration. Inhibitors of inducible nitric oxide synthase (NOS) abrogated PCP-potentiated CMH, although repetitive PCP treatment alone did not increase nitric oxide synthesis systemically or locally in hepatic tissue nor did lipopolysaccharide induction of NOS (without PCP) directly potentiate CMH. The precise mechanisms of PCP potentiation of CMH and involvement of NOS in CMH remain unclear, however, sustained depletion of GSH levels and increased hepatocellular binding of reactive cocaine metabolites have been demonstrated.
Published Version
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