6533b858fe1ef96bd12b6542

RESEARCH PRODUCT

Dual role of epoxide hydratase in both activation and inactivation of benzo(a)pyrene.

subject

description

The effect of epoxide hydratase upon the mutagenicity of benzo(a)pyrene was investigated using two Salmonella typhimurium strains (TA 1537 and TA 98). These two bacterial strains were found to differ characteristically in their susceptibility to different mutagens biologically produced from benzo(a)pyrene providing a diagnostic tool to investigate which types of mutagenic metabolites were produced in various metabolic situations. The results showed that the pattern of mutagenic metabolites produced by microsomes from methylcholanthrene-treated mice was very different from that produced by microsomes from phenobarbital-treated or untreated mice. However in all cases at least two mutagenic metabolites were produced. Epoxide hydratase was very efficient at reducing the mutagenic effect when benzo(a)pyrene was activated by microsomes from untreated or phenobarbital-treated mice. However, when microsomes from methylcholanthrene-treated mice were used the effect of hydratase depended upon the benzo(a)pyrene concentration. At low concentrations the mutagenicity was increased by addition of epoxide hydratase and decreased by inhibition of the hydratase. At high concentrations the reverse was true. These findings indicate that when microsomes from untreated and phenobarbital-treated mice were used the main contributors to the mutagenicity were simple epoxides (or compounds arising non-enzymically from them). The activation of dihydrodiols must, however, contribute to a significant extent when microsomes from methylcholanthrene-treated mice were used. Thus the role of epoxide hydratase was determined by the monooxygenase form present in the microsomes in the activating system.