The formation of 2-aminofluorene-dna adductsin vivo: Evidence for peroxidase-mediated activation

Abstract

Formation of DNA adducts in various tissues of dogs fed a single dose of the carcinogen 2‐aminofluorene was investigated. Adduct analysis was performed using a technique that allows measurement of both N‐(deoxyguanosin‐8‐yl)‐2‐aminofluorene, the adduct formed by reaction of N‐hydroxy‐2‐aminofluorene with DNA, as well as the polar 2‐aminofluorene‐DNA adducts formed when 2‐aminofluorene is activated by prostaglandin H synthase‐peroxidase in vitro. Two male beagle (A and B) dogs were examined and a different DNA adduct profile was observed with each dog. For the dog A, N‐(deoxyguanosin‐8‐yl)‐2‐aminofluorene was the major adduct found in hepatic DNA; no peroxidase‐derived adducts were detected in this tissue. In contrast, adducts eluting similarly to peroxidase‐derived adducts were found in urinary tract tissues of this dog with the relative abundance of these adducts in the order urothelium > renal medulla > renal cortex, which correlates with the respective tissues' prostaglandin H synthase activity. N‐(Deoxyguanosin‐8‐yl)‐2‐aminofluorene was detected in the renal tissues, but not in urothelium. For dog B, only the N‐(deoxyguanosin‐8‐yl)‐2‐aminofluorene adduct was observed in all tissues examined, including the urothelium. However, total binding to liver, kidney, and bladder were two‐, two‐, and four‐fold lower, respectively, than dog A. These data indicate that both prostaglandin H synthase‐mediated activation and N‐hydroxylation of 2‐aminofluorene occur in vivo and may be subjected to pharmacodynamic considerations. Furthermore, the tissue distribution of the peroxidase‐mediated 2‐aminofluorene adducts suggests this process may also be of importance in the bladder‐specific carcinogenicity of aromatic amines.