Metabolism of radioactive 17 beta-estradiol 3-methyl ether by humans.

A mixture of 2-3H and 4-14C-17beta-estradiol 3-methyl ether was administered orally to a man and to a woman. 34 and 35 percent of the 3H was liberated into the body water of the man and of the woman, respectively, reflecting reactions involving position 2. The metabolism of estradiol methyl ether was qualitatively similar to that observed previously for radioactive estradiol administered intravenously to the same subjects, as judged by the measurement of various urinary metabolites by reverse isotope dilution. Evidence was obtained for hydroxylation at position 2 without demethylation by the isolation of urinary 2-hydroxyestrone 3-methyl ether which retained 33% of the original 3H. This 3H was presumably at position 1, resulted from an NIH shift which does not occur during hydroxylation of estrone or estradiol. This was confirmed by subsequent administration of a mixture of 4-14C and 3H-(methoxyl)-estradiol 3-methyl ether to the man. There was no evidence (by reverse isotope dilution) for 1-hydroxyestrone, 1-hydroxyestrone 3-methyl ether, 4-hydroxyestrone 3-methyl ether or 4-hydroxyestradiol 3-methyl ether as urinary metabolites of estradiol 3-methyl ether.     

Catecholestrogen sulfation: possible role in carcinogenesis

A growing body of evidence supports the hypothesis that estrogens can be carcinogens as a result of their conversion to genotoxins after biotransformation to form the catecholestrogens (CEs) 2-hydroxyestrone (2-OHE1), 2-hydroxyestradiol (2-OHE2), 4-hydroxyestrone (4-OHE1) and 4-hydroxyestradiol (4-OHE2). CEs can then undergo further metabolism to form quinones that interact with DNA to form either stable or depurinating adducts. These events could potentially be interrupted by the sulfate conjugation of both the parent estrogens and/or the CEs. We set out to determine whether CEs can serve as substrates for sulfate conjugation, and-if so-which of the growing family of human sulfotransferase (SULT) isoforms are capable of catalyzing those reactions. We determined apparent K(m) values for 10 recombinant human SULT isoforms, as well as the three most common allozymes for SULT1A1 and SULT1A2, with 2-OHE1, 2-OHE2, 4-OHE1, and 4-OHE2, and with the endogenous estrogens, estrone (E1) and 17beta-estradiol (E2), as substrates. With the exception of SULT1B1, SULT1C1, and SULT4A1, all of the human SULTs studied catalyzed the sulfate conjugation of CEs. SULT1E1 had the lowest apparent K(m) values, 0.31, 0.18, 0.27, and 0.22 microM for 4-OHE1, 4-OHE2, 2-OHE1, and 2-OHE2, respectively. These results demonstrate that SULTs can catalyze the sulfate conjugation of CEs, and they raise the possibility that individual variation in this pathway for estrogen and CE metabolism as a result of common genetic polymorphisms could represent a risk factor for estrogen-dependent carcinogenesis.     

The effect of oral contraceptive steroid therapy on the urinary metabolites of radioactive estrone and estradiol-17beta

Eight urinary metabolites of radioactive estrone and estradiol-17β (estrone, estradiol-17β, 2-hydroxyestrone, 2-methoxyestrone, 2-hydroxyestrone 3-methyl ether, 16α-hydroxyestrone, 2-hydroxyestradiol and estriol) have been measured by reverse isotope dilution from young women on oral contraceptive therapy. There was a decrease in the sum of the 16α-hydroxy1ated metabolites in the Ketodase liberated fraction from the subjects taking ethynylestradiol containing preparations as compared to those taking preparations containing mestranol and those subjects who were taking no oral contraceptives. This report is also the first to document and measure 2-hydroxyestradiol as a urinary metabolite of radioactive estrone and estradiol.     

Kinetics of catechol estrogen-estrogen receptor dissociation: a possible factor underlying differences in catechol estrogen biological activity

The mechanisms underlying the differences in uterotrophic potency between 2- and 4-hydroxyestrogens were explored. Doses of estradiol (E2)(10 micrograms/kg), 2-OHE2 (500 micrograms/kg) and 4-OHE2 (100 micrograms/kg) sufficient to induce near maximal cell nuclear estrogen receptor (ERn) binding were injected subcutaneously into 26 day old female rats. Uterine ERn concentrations declined more rapidly after 2-OHE2 than after E2 or 4-OHE2. E2 and 4-OHE2 both elicited a significant increase in uterine wet weight, measured at 24-36 hrs after injection. 2-OHE2 had no significant effect and neither synergized with nor antagonized the effects of simultaneously administered E2 or 4-OHE2. Under in vitro conditions at 25 degrees C, 2-hydroxyestrone (2-OHE1) and 2-OHE2 both dissociated from the receptors more rapidly than either their parent monophenolic estrogens or the corresponding 4-hydroxyestrogens. These results suggest that differences in estrogenic potency between 2- and 4-hydroxyestrogens may partly be a function of the dissociation kinetics of their estrogen receptor complexes.     

Catecholestrogens excretion in smoking and non-smoking postmenopausal women receiving estrogen replacement therapy

Estrogens are involved in the etiology of breast cancer. Their blastomogenic influence may be partly realized through their conversion into catecholestrogens, rate of which may be modified by smoking. The risk of having breast cancer diagnosed can increase in women using estrogen replacement therapy (ERT). The principal aim of this investigation was to compare the excretion of classical estrogens and catecholestrogens in smoking and non-smoking postmenopausal women receiving Progynova (estradiol valerate, 2 mg/day, 1 month). Total 16 women were studied before and after treatment. Urinary estrogen profile method based on isotope dilution capillary gas chromatography-mass spectrometry was used. Before ERT, significantly lower excretion of 16-epiestriol and 4-hydroxyestrone (4-OHE1) and lower ratio of 4-OHE1/E1 were revealed in smokers. After ERT, much higher excretion of 2-OHE1, and 4-hydroxyestradiol (4-OHE2), higher ratios of 2-OHE1/E1 and 4-OHE1/E1 and lower ratio of 2-methoxyestrone/2-OHE1 were discovered in smokers as compared to non-smoking women. In conclusion only combination of ERT + smoking and not smoking itself leads to the specific prevalence of catecholestrogens (2-OH- and carcinogenic and DNA-damaging 4-OH-metabolites) that may increase risk of genotoxic variant of hormone-induced breast carcinogenesis without influence on the total morbidity.     

Preferential induction of cytochrome P450 1A1 over cytochrome P450 1B1 in human breast epithelial cells following exposure to quercetin

Estrogen metabolism is suggested to play an important role in estrogen-induced breast carcinogenesis. Epidemiologic studies suggest that diets rich in phytoestrogens are associated with a reduced risk of breast cancer. Phytoestrogens are biologically active plant compounds that structurally mimic 17beta-estradiol (E(2)). We hypothesize that phytoestrogens, may provide protection against breast carcinogenesis by altering the expression of estrogen-metabolizing enzymes cytochrome P450 1A1 (Cyp1A1) and 1B1 (Cyp1B1). Cyp1A1 and Cyp1B1 are responsible for the metabolism of E(2) to generate 2-hydroxyestradiol (2-OHE(2)) and 4-hydroxyestradiol (4-OHE(2)), respectively. Studies suggest that 2-OHE(2) and 2-methoxyestradiol may protect against breast carcinogenesis, while 4-OHE(2) is carcinogenic in rodent models. Thus, agents that increase the metabolism of E(2) by Cyp1A1 to produce 2-OHE(2) may have chemoprotective properties. The human immortalized non-neoplastic breast cell line MCF10F was treated with quercetin at 10 and 50muM concentrations for time points ranging from 3 to 48h. Total RNA and protein were isolated. Real-time PCR was used to measure the expression of Cyp1A1 and Cyp1B1 mRNA. Quercetin treatment produced differential regulation of Cyp1A1 and Cyp1B1 mRNA expression in a time- and dose-dependent manner. Treatment with 10 and 50 microM doses of quercetin produced 6- and 11-times greater inductions of Cyp1A1 mRNA over Cyp1B1 mRNA, respectively. Furthermore, quercetin dramatically increased Cyp1A1 protein levels and only slightly increased Cyp1B1 protein levels in MCF10F cells. Thus, our data suggest that phytoestrogens may provide protection against breast cancer by modulating expression of estrogen-metabolizing genes such that production of the highly carcinogenic estrogen metabolite 4-OHE(2) by Cyp1B1 is reduced and the production of the less genotoxic 2-OHE(2) by Cyp1A1 is increased.     

CYP1B1 prevents proteasome-mediated XIAP degradation by inducing PKCε activation and phosphorylation of XIAP

Cytochrome P450 1B1 (CYP1B1) is a key enzyme that catalyzes the metabolism of 17β-estradiol (E2) into catechol estrogens, such as 2-hydroxyestradiol (2-OHE2) and 4-hydroxyestradiol (4-OHE2). CYP1B1 is related to tumor formation and is over-expressed in a variety of cancer cells. In particular, CYP1B1 is highly expressed in hormone-related cancers such as breast cancer, ovarian cancer, or prostate cancer compared to other cancers. However, the detailed mechanisms involving this protein remain unclear. In this study, we demonstrate that CYP1B1 affects X-linked inhibitor of apoptosis protein (XIAP) expression. When CYP1B1 was over-expressed in cells, there was significant increase in the XIAP protein level, whereas the XIAP mRNA level was not affected by CYP1B1 expression. Treatment with 4-OHE2, mainly formed by CYP1B1 activity, also increased XIAP protein levels, whereas treatment with 2-OHE2 did not have a significant effect. Treatment with 4-OHE2 significantly prevented proteasome-mediated XIAP degradation. In addition, phosphorylation of XIAP on serine 87, which is known to stabilize XIAP, was up-regulated by 4-OHE2, indicating that 4-OHE2 affects XIAP stability through XIAP phosphorylation. We also found that phosphorylation of protein kinase C (PKC)ε, which is required for XIAP phosphorylation, increased when cells were treated with 4-OHE2. In summary, our data show that CYP1B1 may play an important role in preventing ubiquitin-proteasome-mediated XIAP degradation through the activation of PKCε signaling in cancer cells.     

In vitro metabolic conjugation of catechol estrogens

In vitro metabolic conjugation of the catechol estrogens, 2-hydroxyestrone and 4-hydroxyestrone, has been investigated by means of HPLC with electrochemical detection. Sulfation of 2-hydroxyestrone and 4-hydroxyestrone with the rat liver 105 000 g supernatant fortified with 3'-phosphoadenosine-5'-phosphosulfate provided the 2- and 4-monosulfates, respectively. Glucuronidation of the two catechols with the rat and human liver 1500 g supernatant in the presence of uridine-5'- phosphoglucuronic acid gave the 2- and 4-glucuronides, respectively. In contrast, incubation with the guinea pig liver 1500 g supernatant yielded both isomeric monoglucuronides . When 2'-hydroxyestrone was incubated with rat liver 1500 g supernatant and S-adenosyl-L-methionine, the 2- and 3-monomethyl ethers were formed in an equal amount, while 4-hydroxyestrone was transformed into the 4-methyl ether in 12 times greater yield than the 3-methyl ether. The participation of sulfation and glucuronidation in the formation of guaiacol estrogens is discussed.     

Catechol estrogen formation in mouse uterus

Estrogen 2/4-hydroxylase (ESH) and catechol-O-methyltransferase (COMT) activities in mouse liver and uterus were studied. While 2-hydroxyestradiol (2-OHE2) was the predominant product in the liver, equal amounts of 2- and 4-hydroxyestradiol were produced in the uterus. Two-hydroxyestradiol was the preferred substrate for COMT in both tissues, but the level of this enzyme activity was much less in the mouse uterus (17-fold less). Thus, preferential production of 4-hydroxyestradiol (4-OHE2) in the presence of relatively less deactivation provides a mechanism for the local formation of a more chemically active form of estrogen by uterine tissue.     

Radioimmunoassay of 2-hydroxyestrone

Under the protection of ascorbic acid a 2-hydroxyestrone bovine serum albumin conjugate was prepared containing intact 2-hydroxyestrone as determined by gas chromatographymass spectrometry. Using this antigen highly specific antibodies were raised in rabbits. Cross-reactivity for 2-hydroxyestradiol and 2-hydroxyestriol was 26 and 4.5%, respectively. An assay procedure of 2-hydroxyestrone in human plasma is described. Using special precautions the assay allows the determination of 2-hydroxyestrone in plasma samples of women (50–95 pg/ml), pregnant women (105–220 pg/ml), men (45–65 pg/ml) and children (20–40 pg/ml).     

Resveratrol suppresses 4-hydroxyestradiol-induced transformation of human breast epithelial cells by blocking IκB kinaseβ-NF-κB signalling

Excess estrogen stimulates the proliferation of mammary epithelial cells and hence represents a major risk factor for breast cancer. Estrogen is subjected to cytochrome P450-catalysed oxidative metabolism to produce an oncogenic catechol estrogen, 4-hydroxyestradiol (4-OHE?). 4-OHE? undergoes redox cycling during which reactive oxygen species (ROS) as well as the chemically reactive estrogen semiquinone and quinone intermediates are produced, thereby contributing to hormonal carcinogenesis. Resveratrol (3,4',5-trihydroxy stilbene), a phytoalexin present in grapes, has been reported to possess chemopreventive and chemotherapeutic activities. In the present study, we examined the inhibitory effects of resveratrol on 4-OHE?-induced transformation of human breast epithelial MCF-10A cells. Resveratrol inhibited migration and anchorage-independent growth of MCF-10A cells treated with 4-OHE?. Resveratrol treatment suppressed the 4-OHE?-induced activation of IκB kinaseβ (IKKβ) and phosphorylation of IκBα, and consequently NF-κB DNA binding activity and cyclooxygenase-2 (COX-2) expression. Resveratrol suppressed ROS production and phosphorylation of Akt and ERK induced by 4-OHE? treatment. In conclusion, resveratrol blocks activation of IKKβ-NF-κB signalling and induction of COX-2 expression in 4-OHE?-treated MCF-10A cells, thereby suppressing migration and transformation of these cells.     

Gas chromatographic determination of catecholestrogens following isolation by solid-phase extraction

A sensitive and specific assay for the determination of the catecholestrogens 2-hydroxyestradiol (2-OHE2) and 4-hydroxyestradiol (4-OHE2) using gas chromatography with electron-capture detection (GC–ECD) is described. The formation of 2- and 4-OHE2 was assessed following activation of 17β-estradiol in the microsomal fraction of female rat livers. The analytes were isolated by solid-phase extraction, derivatized to their heptafluorobutyryl esters with heptafluorobutyric acid anhydride, and subjected to solvent exchange prior to analysis; this resulted in minimal chromatographic interference, long column life, and stable derivatized analytes. Derivatized catechols were separated and confirmed with dual column chromatography (DB-5 and DB-608) and quantitated using GC–ECD. The DB-608 column was preferred for quantitation as it provided better 4-OHE2 resolution from interference. Key validation parameters for the assay include sensitivity, intra- and inter-assay precision, and accuracy. Instrument sensitivity and limits of detection (LOD) and quantitation (LOQ) were determined statistically from fortification data approaching expected limits. For 2-OHE2 and 4-OHE2, respective values for these parameters were; instrument sensitivities of 0.4 and 0.7 pg, LODs of 0.8 and 1.3 ng/mg, and LOQs of 2.6 and 4.3 ng/mg.     

Estrogenic and antiestrogenic activities of 16alpha- and 2-hydroxy metabolites of 17beta-estradiol in MCF-7 and T47D human breast cancer cells

The comparative mitogenic activities of 17beta-estradiol (E2) and four metabolites, 2-hydroxyestradiol (2-OHE2), 2-hydroxyestrone (2-OHE1), 16alpha-hydroxyestradiol (16alpha-OHE2) and 16alpha-hydroxyestrone (16alpha-OHE1) were determined in estrogen receptor (ER)-positive MCF-7 and T47D human breast cancer cells. E2 (1 nM) induced a 7- to 13-fold increase in cell number in both cell lines compared to untreated cells and the mitogenic potencies of 16alpha-OHE1 or 16alpha-OHE2 were comparable to or greater than E2. In contrast, 2-OHE1 and 2-OHE2 were weak mitogens in both cell lines and in cells cotreated with 1 nM E2 and 100 or 1000 nM 2-OHE1 or 2-OHE2, there was a significant inhibition of hormone-induced cell proliferation. The comparative ER agonist/antagonist activities of E2 and the metabolites on transactivation were determined in T47D cells transiently transfected with constructs containing promoter inserts from the cathepsin D (pCD) and creatine kinase B (pCKB) genes. E2, 16alpha-OHE2 and 16alpha-OHE1 induced reporter gene activity in both MCF-7 or T47D cells transfected with pCKB or pCD. In contrast, 2-OHE1 and 2-OHE2 did not exhibit ER agonist activity for these transactivation assays, but in cells cotreated with E2 plus 2-OHE1 or 2-OHE2, there was a significant decrease in the hormone-induced response. These results demonstrate that 16alpha-OHE1/16alpha-OHE2 exhibit estrogenic activities similar to that observed for E2, whereas the 2-catecholestrogens are weak ER agonists (cell proliferation) or antagonists (cell proliferation and transactivation).     

The role of catecholestrogens in placental steroidogenesis

The effect of the catecholestrogen, 2-hydroxyestrone (2-OHE1), on placental steroidogenesis was studied by incubating 2-OHE1 with placental explants for 24 hours and measuring the output of estradiol (E2) and progesterone (P4). 2-OHE1 stimulated the accumulation of E2 and P4 in the media. This effect was inhibited by the alpha-adrenergic blocker, phenoxybenzamine, and the beta-adrenergic blocker, propranolol. We conclude that 2-OHE1 affects placental steroidogenesis and that this effect could possibly be mediated through adrenergic receptors.     

Steroidogenic response of rat and pig luteal cells to estradiol-17 beta and catecholestrogens in vitro.

The corpora lutea of several species contain estrogen receptors, but the role of estrogens in luteal function is unclear in most species. In this study, we investigated the direct effect of estradiol-17 beta (E2) and catecholestrogens (2-OHE2 or 4-OHE2) on rat and pig luteal steroidogenesis using in vitro cultures of small (SLC) and large (LLC) luteal cells prepared by elutriation. SLC and LLC were cultured at 37 degrees C for 36 h in serum-free media and treated with E2, 2-OHE2, or 4-OHE2; LH; forskolin (FORS); dibutyryl cAMP (dbcAMP); or combinations thereof. In the rat, E2 (2.5-10 micrograms/ml) inhibited progesterone (P4) production by both cell types dose-dependently. P4 production by rat SLC increased with increasing dose of 4-OHE2 up to the 2.5-microgram dose, then decreased to near control level at the 10-microgram dose. In LLC, P4 production in the presence of 4-OHE2 decreased initially (up to 2.5 micrograms/ml 4-OHE2), then increased at the 10-microgram dose. LH, FORS, and dbcAMP stimulated P4 production by SLC and LLC. For SLC, the stimulatory effects of LH and 4-OHE2 (2.5 micrograms) were comparable but lower than those of FORS and dbcAMP. For LLC, the effects of 4-OHE2 (10 micrograms), LH, and FORS were comparable but lower than those of dbcAMP. In time-course experiments, E2 inhibition of P4 production was observed at 36 and 72 h but not 6 h of culture for SLC and at all time points for LLC.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of short-term exposure to catecholestrogens on serum concentrations of gonadotrophins and metabolism of catecholestrogens in ovariectomized rats

Equimolar amounts (36.8 nmol) of estradiol and the two catecholestrogens (CE's) 4-hydroxyestradiol (4-OHE2) and 2-hydroxyestradiol (2-OHE2) were injected subcutaneously to ovariectomized adult rats. Serum levels of both LH and FSH were determined at short-term intervals. Moreover, serum levels of the administered steroids and their main free and conjugated metabolites were monitored. Serum levels of the injected steroids reached peak values at different time points: estradiol between 60 and 240 min, CE's between 30 and 60 min. Peak height also differed significantly: with estradiol highest (1500 pg/ml), followed by 4-OHE2 (540 pg/ml) and then 2-OHE2 (135 pg/ml) (ratio 11:4:1). This mirrored the different MCR's of the steroids: CE's, especially 2-OHE2, were rapidly and extensively methylated and/or - to a lesser degree - conjugated. Estradiol remained mainly unchanged. LH-serum levels in steroid treated animals showed - irrespective of the steroid used - a uniform reaction pattern: they were significantly depressed 60 to 240 min after injection and - with the exception of estradiol treated rats - reached pretreatment levels again 480 min after injection. Ultra-short (15 min) effects were not observed. FSH serum levels in CE treated animals were not significantly altered, only E2 application led to a significant but small decrease in FSH levels 240 and 480 min after its injection. In conclusion, neither the effect of 4-OHE2 nor that of 2-OHE2 corresponded to the different MCR's or the MCR-corrected affinities for the classical estrogen receptor. A non-genomic mechanism may be responsible for this impaired effect of CE's.     

Effect of norethisterone acetate on estrogen metabolism in postmenopausal women.

Dominance of estradiol metabolism at the D-ring over the A-ring metabolism may play a role in the pathophysiology of human breast carcinogenesis. Currently, the influence of progestins on breast cancer risk is debated when added to postmenopausal estradiol replacement therapy. However, nothing is known about the action of progestins on estradiol metabolism. Therefore, the effect of oral and transdermal estradiol/norethisterone acetate (NETA) was investigated on the ratio of the main D-ring metabolite 16alpha-hydroxyestrone (16-OHE1) to the main Aring metabolite 2-hydroxyestrone (2-OHE1). The ratio of 16-OHE1 to 2-OHE1 after transdermal hormone replacement therapy (HRT) was 0.43 before treatment, 0.35 after estradiol and 0.52 after estradiol + NETA. The ratio after oral HRTwas 0.94 before treatment, 0.86 after estradiol and 2.30 after estradiol + NETA. Because of the high variations, no statistical significance could be calculated. Since there was a tendency to an increase after oral estradiol + NETA treatment, the individual patient profiles were examined. Here, three patients in the oral treatment group showed a significant increase of the ratio after the estradiol/NETA phase. In conclusion, transdermal NETA in HRT did not elicit any change in estrogen metabolism after 2 weeks' treatment. However, oral NETA may in some cases have an impact on estradiol metabolism which should be further evaluated.     

Prevention of estrogen-DNA adduct formation in MCF-10F cells by resveratrol

Resveratrol (Resv), a natural occurring phytolexin present in grapes and other foods, possesses chemopreventive effects revealed by its striking modulation of diverse cellular events associated with tumor initiation, promotion, and progression. Catechol estrogens generated in the metabolism of estrogens are oxidized to catechol quinones that react with DNA to form predominantly depurinating estrogen-DNA adducts. This event can generate the mutations responsible for cancer initiation. In this regard, Resv acts as both an antioxidant and an inducer of the phase II enzyme NAD(P)H:quinone oxidoreductase 1 (NQO1). In this report, we present the effects of Resv on the metabolism of estrogens in normal breast epithelial cells (MCF-10F) treated with 4-hydroxyestradiol (4-OHE(2)) or estradiol-3,4-quinone (E(2)-3,4-Q). Resv induced NQO1 in a dose- and time-dependent manner, but did not affect the expression of catechol-O-methyltransferase. Ultraperformance liquid chromatography/tandem mass spectrometry was used to determine the effects of Resv on estrogen metabolism. Preincubation of the cells with Resv for 48 h decreased the formation of depurinating estrogen-DNA adducts from 4-OHE(2) or E(2)-3,4-Q and increased formation of methoxycatechol estrogens. When Resv was also present with the 4-OHE(2) or E(2)-3,4-Q, even greater increases in methoxycatechol estrogens were observed, and the DNA adducts were undetectable. We conclude that Resv can protect breast cells from carcinogenic estrogen metabolites, suggesting that it could be used in breast cancer prevention.     

Induction of Cytosolic Progestin Binding Sites by Catecholestrogens in Rat Pituitary Gland and Uterus: Different Potencies of 2- and 4-Hydroxyestradiol

The ability of catecholestrogens to induce cytosolic progestin binding sites in the hypothalamus, pituitary gland, and uterus of ovariectomised-adrenalectomised rats was demonstrated by the increase in high-affinity [3H]promegestone binding sites (KD 1.39, 0.50, and 0.54 nM, respectively) following a single subcutaneous injection (26.4 micrograms/animal) of the 3.4-dibenzoate ester of 4-hydroxyestradiol. The affinity and the time course of induction of these binding sites were very similar to those after a single injection of an equivalent dose (20 micrograms/animal) of estradiol 3-benzoate, exhibiting maximal receptor levels after 44 h. Widely differing efficacies in the induction of progestin binding sites were observed between the dibenzoate esters of 2- and 4-hydroxyestradiol. 2-Hydroxyestradiol 2,3-dibenzoate was ineffective in the pituitary gland up to a dose of 132 micrograms/animal, whereas 4-hydroxyestradiol dibenzoate was equipotent to estradiol benzoate, showing a maximal induction of progestin binding sites at single doses in the range of 13.2-26.4 micrograms/animal (equivalent to 10-20 micrograms of estradiol benzoate). As compared to the pituitary gland, the uterus was much more sensitive to the systemic administration of estrogen benzoates. At single doses in the range of 1.32-6.6 micrograms/animal (equivalent to 1-5 micrograms of estradiol benzoate), 4-hydroxyestradiol dibenzoate induced maximal levels of progestin receptors, and even 2-hydroxyestradiol dibenzoate, when given at a high dose (132.4 micrograms/animal, equivalent to 100 micrograms of estradiol benzoate), produced a slight increase in progestin binding sites.     

Mutagenic properties of estrogen quinone-derived DNA adducts in simian kidney cells

DNA damage caused by catechol estrogens has been shown to play an etiologic role in tumor formation. Catechol estrogens are reactive to DNA and form several DNA adducts via their quinone forms. To explore the mutagenic properties of 2-hydroxyestrogen-derived DNA adducts in mammalian cells, N(2)-(2-hydroxyestrogen-6-yl)-2'-deoxyguanosine and N(6)-(2-hydroxyestrogen-6-yl)-2'-deoxyadenosine adducts induced by quinones of 2-hydroxyestrone, 2-hydroxyestradiol, or 2-hydroxyestriol were incorporated site-specifically into the oligodeoxynucleotides ((5)(')TCCTCCTCXCCTCTC, where X is dG, dA, 2-OHE-N(2)-dG, or 2-OHE-N(6)-dA). The modified oligodeoxynucleotides were inserted into single-stranded phagemid vectors followed by transfection into simian kidney (COS-7) cells. Preferential incorporation of dCMP, the correct base, was observed opposite all 2-OHE-N(2)-dG adducts. Only targeted G --> T transversions were detected; the highest mutation frequency (18.2%) was observed opposite the 2-OHE(2)-N(2)-dG adduct, followed by 2-OHE(1)-N(2)-dG (4.4%) and 2-OHE(3)-N(2)-dG (1.3%). When 2-OHE-N(6)-dA adducts were used, preferential incorporation of dTMP, the correct base, was observed. Targeted mutations representing A --> T transversions were detected, accompanied by small numbers of A --> G transitions. The highest mutation frequencies were observed with 2-OHE(1)-N(6)-dA and 2-OHE(3)-N(6)-dA (14.5 and 14.1%, respectively), while 2-OHE(2)-N(6)-dA exhibited a mutation frequency of only 6.0%. No mutations were detected with vectors containing unmodified oligodeoxynucleotides. Thus, 2-OHE quinone-derived DNA adducts are mutagenic, generating primarily G --> T and A --> T mutations in mammalian cells. The mutational frequency varied depending on the nature of the 2-OHE moiety.