Metabolic activation of the carcinogen N-[4-(5-nitro-2-furyl)-2-thiazolyl]acetamide by prostaglandin H synthase.

It has been demonstrated that N-[4-(5-nitro-2-furyl)-2-thiazolyl]acetamide (NFTA), when fed with the diet, causes transitional carcinomas in rats. An important step in the mechanism of NFTA-induced carcinogenesis is endogenous metabolic activation to an ultimate carcinogen. We have proposed that the enzyme complex prostaglandin H synthase (PHS) is involved in the activation of certain renal and urinary tract carcinogens. This proposal was assessed by examining the activation of the 5-nitrofuran renal carcinogen NFTA and its deacetylated analogue 2-amino-4-(5-nitro-2-furyl)thiazole (ANFT) by PHS. Ram seminal vesicular and rabbit renal inner medullary microsomes were used as a source of PHS. Both NFTA and ANFT were activated by PHS to bind microsomal protein. Both microsomal preparations activated ANFT to bind DNA. However, only ram seminal vesicular microsomes activated NFTA to bind DNA. The rate of ANFT binding to macromolecules was considerably greater than NFTA with both microsomal preparations. Although activated ANFT was shown to bind several different homopolynucleotides, a preference for binding polyguanylic acid was demonstrated. Glutathione inhibition of carcinogen binding to macromolecules was shown to be due to the formation of a thioether conjugate. Deacetylation of NFTA was demonstrated in both tissues with deacetylation significantly exceeding acetylation of ANFT to NFTA in the kidney. Thus, renal PHS activation of both NFTA and ANFT was demonstrated with the rate of ANFT activation being considerably greater than NFTA. The conversion of NFTA to ANFT by intact tissue suggests that ANFT may contribute to NFTA renal carcinogenesis.