摘要
2-naphthylamine was incubated with induced rat liver microsome S9 preparation and the metabolites were separated through HPLC. The following products were identified: 2-amino-5-naphthol, 2-amino-6-naphthol, 2-amino-7-naphthol and 2-amino-8-naphthol. The yields of these four metabolites are varying in quantity, and the relative contents of 2-amino-8-, -5-, -6- and -7-naphthol are 52.6%, 28.5%, 14.0% and 4.9% respectively. These results are consistent with the quantitative HMO calculation and inference based upon Di-region theory, i.e., the metabolisms of aryl amines on extra-ring (assigned the ring without the substituent of amino group) are through the epoxidation and then NIH shift, but are not the direct hydroxylation in the formation of phenols. It is shown that both the amino group and the carbon atoms on the extra-ring play duality roles of activation and detoxification in metabolism.
2-naphthylamine was incubated with induced rat liver microsome S9 preparation and the metabolites were separated through HPLC. The following products were identified: 2-amino-5-naphthol, 2-amino-6-naphthol, 2-amino-7-naphthol and 2-amino-8-naphthol. The yields of these four metabolites are varying in quantity, and the relative contents of 2-amino-8-, -5-, -6- and -7-naphthol are 52.6%, 28.5%, 14.0% and 4.9% respectively. These results are consistent with the quantitative HMO calculation and inference based upon Di-region theory, i.e., the metabolisms of aryl amines on extra-ring (assigned the ring without the substituent of amino group) are through the epoxidation and then NIH shift, but are not the direct hydroxylation in the formation of phenols. It is shown that both the amino group and the carbon atoms on the extra-ring play duality roles of activation and detoxification in metabolism.
