Ar. Steward et al., METABOLIC-FATE AND DISPOSITION OF 2-ACETYLAMINOFLUORENE IN RAINBOW-TROUT, ONCORHYNCHUS-MYKISS, Aquatic toxicology, 30(3), 1994, pp. 225-236
Rainbow trout, Shasta strain, in contrast to several mammalian species
, are highly resistant to hepatocarcinogenesis by 2-acetylaminofluoren
e (AAF). In order to examine factors that may contribute to this resis
tance, we investigated the metabolic fate of AAF. Trout treated orally
with [C-14]AAF rapidly eliminated AAF derivatives via the liver (in w
hich the concentration of AAF-derived radioactivity decreased 4-fold b
etween 8 and 24 h) into the bile which, at 24 h, contained 83% of the
recovered radioactivity. At 24 h only 3.5% of the AAF-derived radioact
ivity retained by the liver represented unmetabolized AAF. In the bile
, unmetabolized AAF and 2-aminofluorene accounted for 3.3% and 4.8%, r
espectively, of total biliary radioactivity, while glucuronide and sul
fate conjugates accounted for 63% and 12%, respectively. Analysis of e
xtracts of the deconjugated metabolites revealed that conjugates of 7-
OH-AAF and 5-/8-/9-OH-AAF accounted for 49% and 14%, respectively, of
total radioactivity. The potentially carcinogenic metabolite N-OH-AAF
occurred predominately as the glucuronide conjugate which amounted to
only 2% of total metabolites. These data demonstrate that the liver of
Shasta trout is highly efficient in the detoxification and eliminatio
n of AAF and its derivatives.