Carol Yarborough scite author profile

Two isozymes of porcine aromatase, the placental and the blastocyst forms, were expressed in CHO cells using the mammalian cell transfection method. Using an`in-cell' assay (a 3 H-water release method), catalytic parameters of the porcine placental aromatase were found to be very similar to those of the human enzyme; however, the activity of the blastocyst isozyme was found to be one-thirtieth that of the placental isozyme. Product isolation assay (using testosterone as the substrate) revealed that the major steroid products were 17b-estradiol and 19-nortestosterone. The product ratio of estradiol/19-nortestosterone was found to be 94 : 6 for the porcine placental form, 6 : 94 for the porcine blastocyst form, and 92 : 8 for the human wild-type aromatase. Therefore, the porcine blastocyst aromatase isozyme catalyzes mainly androgen 19-desmethylation rather than aromatization. In addition, inhibition profile analyses on the placental and blastocyst isozymes were performed using three steroidal inhibitors [4-hydroxyandro-stenedione (4-OHA), 7a-(4 H -amino)phenylthio-1,4-androstandiene-3,17-dione (7a-APTADD), and bridge (2,19-methyleneoxy) androstene-3,17-dione (MDL 101,003)], and four nonsteroidal inhibitors [aminoglutethimide (AG), CGS 20267, ICI D1033, and vorozole (R83842)]. While the two isozymes of porcine aromatase share 93% amino-acid sequence identity, our results indicate that the two porcine aromatase isozymes have distinct responses to various aromatase inhibitors.

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Aromatase Inhibitors in Cigarette Smoke, Tobacco Leaves and Other Plants

Osawa¹,

Tochigi²,

Tochigi³

et al. 1990

Journal of Enzyme Inhibition

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A chance observation that cigarette smoke interferes with the aromatase assay led us to investigate tobacco leaf and smoke extracts for the presence of aromatase inhibitors. The highest inhibitory activity was found in the basic fraction of cigarette smoke. Further purification of this fraction led to the identification of N-n-octanoylnornicotine. Synthesis and testing of a series of acylated nornicotines and anabasines for their ability to inhibit aromatase showed an interesting correlation of activity with the length of the acyl carbon chain, with maximum activity at C-11. The acylated derivatives showed activity which was significantly greater than that of nicotine and anabasine. In vivo studies in rats indicated that administration of this inhibitor delayed the onset of NMU-induced breast carcinoma and altered the estrus cycle. These in vivo studies suggest that tobacco alkaloid derivatives exert their effects by suppression of the aromatase enzyme system. Toxicity studies indicated relatively low toxicity with LD50 for N-n-octanoylnornicotine = 367 mg/kg body weight. When extracts from thirty five varieties of vegetables, plant leaves, and fruits were analyzed, seventeen showed quantitatively significant aromatase inhibition which was comparable to that of green tobacco leaf, suggesting that naturally occurring substances may affect endocrine function through aromatase inhibition.

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Diverse functions of aromatase: O-deethylation of 7-ethoxycoumarin.

et al. 1996

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In studying the diverse functions of aromatase we found that purified and reconstituted aromatase also catalyzes O-deethylation of 7-ethoxycoumarin. Aromatase cytochrome P450 was purified from human term placentas by monoclonal antiaromatase P450 antibody-Sepharose 4B column chromatography. Kinetic analysis of the O-deethylation of 7-ethoxycoumarin by reconstituted aromatase showed Km of 200 microM, Vmax of 12.5 nmol.min-1.mg-1, and turnover rate of 1.06 min-1. 7-Ethoxycoumarin competitively inhibited androstenedione aromatization, the Ki was 180 microM. Fadrozole (CGS16949A), a specific competitive aromatase inhibitor, and MAb3-2C2, an antiaromatase P450 monoclonal antibody, inhibited both aromatase and 7-ethoxycoumarin O-deethylase activities dose responsively. The IC50 of Fadrozole was 33 nM for aromatase and 67 nM for 7-ethoxycoumarin O-deethylase. The IC50 of MAb3-2C2 was 1.1 micrograms IgG for aromatase and 4.0 micrograms IgG for 7-ethoxycoumarin O-deethylase. These results indicate that the two enzyme activities are catalyzed by the same active site of the cytochrome P450. Contrary to the previous postulate on the mechanism-based inactivation of microsomal aromatase by 4-androstene-3,6,17-trione, we found that with purified aromatase, both the initial 19-hydroxylase and the after lyase reactions are simultaneously inactivated by the steroid suicide inhibitor.

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