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Endocrinology, Vol 131, 655-661, Copyright © 1992 by Endocrine Society
ARTICLES |
J Weisz, QD Bui, D Roy and JG Liehr
Department of Obstetrics and Gynecology, Milton S. Hershey Medical Center, Pennsylvania State University, Hershey 17033.
Characterization of enzymes mediating the formation of catecholestrogens (CE) by hamster kidney is of importance because of the proposed role of CE in renal cancer induced in this species by estrogens. We have reexamined the potential of hamster kidney to convert estradiol (E2) to 2- and 4-hydroxylated CE because of recent evidence of the limitations of assays used in previous studies, in particular in measuring 4-hydroxylation of estrogens. Under conditions optimized for NADPH-dependent activity, hamster kidney microsomes exhibited high levels of both E2-2- and E2-4-hydroxylase activities. Evidence that the two activities depend on different forms of cytochrome P-450 was obtained by the demonstration that 2- and 4- hydroxylation of E2 were affected differentially 1) by chronic treatment of hamsters with E2 and 2) by fadrozole hydrochloride, a selective cytochrome P-450 inhibitor. NADPH-dependent 2-hydroxylation of E2 from control and E2-treated hamsters, measured by a direct product isolation assay, was 1 order of magnitude higher (apparent maximum velocity, 24-32 and 6-12.5 pmol/mg protein.min in control and E2-treated hamsters, respectively) than that reported previously using radioenzymatic assays. NADPH-dependent 4-hydroxylation of E2 in controls approached and in E2-treated hamsters exceeded 2-hydroxylation of E2 (apparent maximum velocity, 17-21 and 7.5-19 pmol/mg protein.min in control and E2-treated hamsters, respectively). Thus, estrogen treatment reversed the ratios of NADPH-dependent E2-2-/4-hydroxylase activities by causing a much greater decline in 2- than 4-hydroxylation of E2 (P less than 0.007, by analysis of variance). Fadrozole hydrochloride caused a marked dose-dependent decrease in 2- hydroxylation of E2, in contrast to a small nondose-dependent inhibition of 4-hydroxylation. Under conditions optimized for peroxidatic organic hydroperoxide-dependent activity, hamster kidney microsomes generated 2- and 4-hydroxylated CE in similar amounts. The amounts of the two CE and, consequently, the ratios remained unaffected by estrogen treatment (1:0.9 and 1:1.0 in control and E2-treated hamsters, respectively). Thus, this study establishes that CE can be generated in the same tissue by three different pathways, i.e. NADPH- dependent E2-2-hydroxylase, NADPH-dependent E2-4-hydroxylase, and organic hydroperoxide-dependent E2-2/4-hydroxylase activities. We also show that these three activities can be regulated differentially and are, thus, probably mediated by different forms of cytochrome P-450. In hamster kidney, the potential to generate 4-hydroxylated CE metabolites with distinct properties could be a factor in this tissue's vulnerability to estrogen-induced carcinogenesis.
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