Abstract

Highly purified isozymes of cytochrome P-450 catalyzed the formation of 3-glutathion-S-ylacetaminophen (GS-APAP) and 3-hydroxyacetaminophen (3-OH-APAP) from acetaminophen (APAP). A major isozyme from untreated male rats (P-450UT-A) catalyzed the formation of ca. 2.0 nmol/nmol of P-450/10 min of 3-OH-APAP and approximately 7.2 nmol of GS-APAP/nmol of P-450/10 min. Antibodies specific for cytochrome P-450UT-A caused a decrease in the amounts of both metabolites produced in microsomal incubations. In contrast to these results, two other constitutive P-450 isozymes from rat liver, cytochrome P-450UT-F and the female specific isozyme P-450UT-I, produced less of both oxidative metabolites. Moreover, they produced significantly more of the catechol metabolite than the glutathione conjugate. These results are in accord with the observation that male rats are more susceptible to acetaminophen hepatotoxicity than female rats. Isozymes induced by phenobarbital also produced more of the catechol than the glutathione conjugate. Conversely, the major isozyme induced by beta-naphthoflavone, cytochrome P-450 beta NF-B, produced a significantly greater amount of GS-APAP than 3-OH-APAP. When comparison was made to a major phenobarbital inducible form (cytochrome P-450PB-B) a definite isozyme specificity for the formation of the two metabolites was seen. The catechol was formed at rates of 2.21 and 0.53 nmol/nmol of P-450/10 min by cytochromes P-450PB-B and P-450 beta NF-B, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)