Abstract

In our current report, flutamide (2-methyl-N-[4-nitro-3-(trifluoromethyl)-phenyl] propanamide) treated diet control and non limited-fed Fischer 344 (F344) and Brown Norway (BN) x F344 rats showed that diet control reduces spontaneous and flutamide-induced hyperplasia((1)). In this continued study, we found that serum concentrations of active metabolite of flutamide, 2-hydroxyflutamide (OH-flu), were 181 ± 26.6 ng/mL and 68 ± 8.0 ng/mL (p<0.05), in non-limited fed and diet control F344 rats. In BN x F344 rats, the serum concentrations of 2-OH-flutamide were 232 ± 57 ng/mL and 52 ± 6 ng/mL (p<0.05) in non-limited fed and diet control animals. In diet control groups, liver microsomes from flutamide-treated F344 rats showed high 7-ethoxyresorufin O-deethylase (EROD) activity, while 7-Benzoxyresorufin O-dealkylase (BROD) activity was not affected significantly. Both rat and human liver microsomes showed flutamide oxidation activity. Human liver microsomes showed 10 times higher activity than rat liver microsomes (0.673 ± 0.04 vs 0.063 ± 0.008 nmol OH-flu/min/mg protein). Microsomes from human tissues such as colon, colon cancer, kidney, bladder, pancreas, prostate, prostate cancer, or ovarian cancer, showed no or non-detectable activity for flutamide hydroxylation. CYP450 1A1, 1A2, 1B1 and 2C19 from human lymphoblastoid cell lines, oxidized flutamide to OH-flu in vitro with activities from 0.118 ± 0.005 to 0.275 ± 0.010 nmol/min/mg protein. Microsomes isolated from human kidney, colon, and liver showed UDP-glucuronosyltransferase (UGT) activity for glucuronidation of OH-flu. Human kidney showed the highest activity. Several human recombinant UGTs (1A1, 1A4, 1A6, 1A7, 1A9, and 1A10) also showed glucuronidation activity for OH-flu. It was found that UGT1A6 was more active than other human UGTs.

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