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GL Kedderis and DE Rickert
The rat hepatic microsomal oxidation of amine metabolites of mono-and dinitrotoluene isomers has been investigated. Microsomes catalyzed the NADPH-dependent oxidation of 2-amino-6-nitrobenzyl alcohol, 2-amino-4- nitrobenzyl alcohol, and the isomeric aminobenzyl alcohols to ethyl acetate-extractable compounds capable of reducing ferric iron. The microsomal metabolism of 2-amino-6-nitrobenzyl alcohol, a metabolite of the hepatocarcinogen 2,6-dinitrotoluene, was characterized in detail. High pressure liquid chromatographic analysis indicated the formation of two metabolites, both of which were reducing agents. One metabolite was identified as 2-hydroxylamino-6-nitrobenzyl alcohol by comparison of its chromatographic properties and mass spectrum with those of the authentic compound. Mass spectral, proton NMR, and UV-visible spectroscopic studies suggested that the other metabolite was 2-amino-5- hydroxy-6-nitrobenzyl alcohol. The microsomal oxidation of 2- aminobenzyl alcohol also resulted in the formation of two reducing agents, one of which was the corresponding hydroxylamine. The formation of 2-hydroxylamino-6-nitrobenzyl alcohol from the microsomal oxidation of 2-amino-6-nitrobenzyl alcohol was linear with respect to time for at least 20 min, while aminophenol formation was only linear for 3 min. The rate of the microsomal oxidation of 2-amino-6-nitrobenzyl alcohol was decreased by known inhibitors of cytochrome P-450, while heat inactivation of microsomal flavin-containing monooxygenase had no effect. The rate of formation of both metabolites was increased 1.5- fold by phenobarbital pretreatment. Pretreatment with beta- naphthoflavone had no effect on the rate of N-hydroxylation, while a small but statistically significant increase in the rate of C- hydroxylation (117% of control) was observed. The rate of oxidation of 2-amino-6-nitrobenzyl alcohol was lower with microsomes from female rats than with those from males, yielding male/female ratios of 1.34 for aminophenol formation and 3.26 for hydroxylamine formation. These data indicate that 2-amino-6-nitrobenzyl alcohol, a metabolite of the hepatocarcinogen 2,6-dinitrotoluene, can be N-hydroxylated by hepatic microsomal cytochrome P-450. The results are consistent with the hypothesis that a hydroxylamine metabolite of 2,6-dinitrotoluene is sulfated in vivo to produce an electrophilic species.
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