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  • Title: Species differences in the biotransformation of the food-borne carcinogen 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine by hepatic microsomes and cytosols from humans, rats, and mice.
    Author: Lin DX, Lang NP, Kadlubar FF.
    Journal: Drug Metab Dispos; 1995 Apr; 23(4):518-24. PubMed ID: 7600922.
    Abstract:
    A comparative study on the metabolic activation and detoxification of the food-borne carcinogen, 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP), by human, rat, and mouse hepatic subcellular fractions was conducted to elucidate the mechanism of the interspecies and organ-specific differences in genotoxicity and carcinogenesis. Incubation of PhIP with human, rat, and mouse hepatic microsomes each generated two metabolites, which were identified as N-hydroxy-PhIP and 4'-hydroxy-PhIP. However, the rates of formation of these metabolites differed significantly between species. Human hepatic microsomes had the highest capacity to convert PhIP to the genotoxic metabolite, N-hydroxy-PhIP, with a mean +/- SD value (9.69 +/- 5.15 nmol/mg protein/30 min, N = 3) that was 1.8-fold and 1.4-fold higher than that of rats (5.25 +/- 1.63, N = 3) and mice (6.89 +/- 0.55, N = 3) p < 0.05), respectively. Rodent microsomes were also able to convert PhIP to its nongenotoxic 4'-hydroxy derivative; however, this detoxification pathway was negligible in human hepatic microsomes. The ratio of N-hydroxylation to 4'-hydroxylation was 97:1, 3.3:1, and 1.7:1 for humans, rats, and mice, respectively. The capacities for the further metabolic activation of N-hydroxy-PhIP by cytosolic O-acetyltransferase, sulfotransferase, L-prolyl-tRNA synthetase, and an ATP-dependent kinase(s) were examined using PhIP-DNA binding as a measure of bioactivation. Acetyl coenzyme A-dependent DNA binding of N-hydroxy-PhIP was detected with both human and rodent hepatic cytosols, and showed a significant interspecies difference.(ABSTRACT TRUNCATED AT 250 WORDS)
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