| 9928682 |
Ratra GS, Cottrell S, Powell CJ: Effects of induction and inhibition of cytochromes P450 on the hepatotoxicity of methapyrilene. Toxicol Sci. 1998 Nov;46(1):185-96.
The mechanisms by which the antihistamine drug methapyrilene causes acute periportal hepatotoxicity in rats are not yet elucidated. This study investigated the effects of modulators of cytochrome P450 (CYP) activity on the hepatotoxicity of methapyrilene and also the effect of methapyrilene on hepatic CYP. Pretreatment of male Han Wistar rats with beta-naphthoflavone, phenobarbitone, butylated hydroxytoluene, piperonyl butoxide, Aroclor 1254, or cobalt protoporphyrin IX, agents known to modify hepatic CYP, all afforded some degree of protection against a hepatotoxic dose of methapyrilene (150 mg/kg x 3 days p.o.), as assessed by clinical chemistry and histology. Total hepatic CYP depletion by cobalt protoporphyrin IX treatment indicated CYP-mediated bioactivation was a prerequisite for methapyrilene-induced hepatotoxicity. Protection against hepatic damage was strongly associated with beta-naphthoflavone induction of CYP1A and phenobarbitone-associated CYP2B induction. However, the role of CYP3A, which is constitutively expressed in the liver and induced by piperonyl butoxide, butylated hydroxytoluene, or Aroclor 1254, was unclear. Modulation of FAD monooxgenase activity by methimazole pretreatment was not associated with increased methapyrilene-induced hepatotoxicity. Methapyrilene treatment alone specifically decreased microsomal enzyme activity markers for CYP2C11, CYP3A, and CYP2A and pretreatment with all the hepatic enzyme-inducing agents specifically prevented the loss of CYP2C11. Together this suggested that CYP2C11 was responsible for the suicide substrate bioactivation of methapyrilene and the toxicologic outcome largely relied upon an abundance of detoxifying enzymes present in the liver. |
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