Synthesis and study of the estrogenic activity of 2,4-bis(bromomethyl)estradiol-17 beta 3-methyl ether.

Synthesis of 2,4-bis(bromomethyl)estradiol-17 beta 3-methyl ether (BBE2M) was accomplished by reducing a methanolic solution of 2,4-bis(bromomethyl)estrone methyl ether with sodium borohydride. In 0.5 M phosphate buffer, pH 7.0, 25 degrees, BBE2M readily reacts with Ellman's anion and alkylates cysteine to form a steroid-amino acid conjugate. Stoichiometry of the reaction indicates that the bromosteroid is divalent with cysteine. Tryptophan and histidine react more slowly with the bromosteroid. Estrogenic activity of BBE2M was evaluated in ovariectomized rats by uterine intraluminal administration and quantitation of glucose-6-phosphate dehydrogenase (D-glucose-6-P:NADP+ oxidoreductase, EC 1.1.1.49) activity in the uterus. BBE2M induced glucose-6-phosphate dehydrogenase activity as did estradiol-17 beta or estradiol-17 beta 3-methyl ether (E2M). BBE2M was more persistent in activity than E2M. Histological examination of uterus following BBE2M treatment shows classic estrogenic morphology. BBE2M covalently binds to the cytoplasmic estrogen receptor of calf uterus. Such binding is prevented by pretreatment of the receptor protein with estradiol-17 beta. The covalently bound steroid-receptor complex appears to stimulate RNA synthesis in isolated nuclei from calf endometrium.     

Boron estrogens: Synthesis,biochemical and biological testing of estrone and estradiol-17β 3-carboranylmethyl ethers

Synthesis, biochemical and biological testing of the first carborane derivatives of estrogens are described. Estrone 3-carboranylmethyl ether was synthesized in two steps from estrone. Reduction of estrone 3-carboranylmethyl ether with sodium borohydride provided estradiol-17β 3-carboranylmethyl ether. Enzyme kinetic measurements showed that estrone 3-carboranylmethyl ether is a substrate for human placental 17β-hydroxy-steroid dehydrogenase with Km = 5×10^?6M, and Vmax = 0.016 μmol min^?1 μg^?1. The relative affinity constant of estradiol-17β 3-carboranylmethyl ether for rat uterine estrogen receptor was 0.5 (compared with a value of 100 for estradiol-17β). Consistent with its low affinity for estrogen receptor, the dose-dependent uterotropic response to estradiol-17β 3-carboranylmethyl ether in castrated female rats was one sixtieth that of estradiol-17β. None of the tested rats had a toxic reaction to estradiol-17β 3-carboranylmethyl ether. These results demonstrate that exceptionally stable carborane derivatives of estrogens can be synthesized with preservation of their biochemical and biological properties. Boron-containing estrogens may be useful for thermal neutron capture therapy of cancers with estrogen receptors to concentrate boron in the cell nucleus.     

Metabolites of estradiol-17β in guinea pig uterus late in pregnancy

The metabolism of estradiol-17β by the guinea pig uterus late in pregnancy was studied $\text{in vivo}$ and $\text{in vitro}$.Whole uteri were examined for estrogen metabolites one hour following an intravenous injection of [³H]-estradiol-17β or uterine sections were examined after incubation for one hour at 37°C in medium containing [³H]-estradiol-17β.In both instances uterine tissue metabolized estradiol-17g to five products: estrone, estrone-3-sulfate, 17β-estradiol-3-sulfate, estrone-3-glucuronide and 17β-estradiol-3-glucuronide. Of the total radioactive products 11 – 43% were glucuronides, 17 – 26% were sulfates and 4 – 17% was estrone. These results indicate that the guinea pig uterus actively transforms estradiol-17β into glucuronides and sulfates late in pregnancy.     

2-Hydroxyestradiol-17α and 4-hydroxyestradiol-17α, catechol estrogfn analogs with reduced estrogen receptor affinity

2-Hydroxyestradiol-17α and 4-hydroxyestradiol-17α, the catechol derivatives of estradiol-17α, have reduced affinity for hypothalamic, pituitary, and uterine estrogen receptors, but retain a potency for interaction with catechol-O-methyltransferase equal to that of the natural, 17β-hydroxy catechols. This dissociation of receptor binding and catecholamine interactions nay allow the use of the 17α catechols as a probe for the mechanism of action of the catechol estrogens.     

Antiestrogenic and antifertility actions of anordrin (2α,17ga-diethynyl-A-nor-5α-androstane-2β,17β-diol 2,17-dipropionate)

Anordrin, administered in a single s.c. dose of 62.5 μg in sesame oil, stimulated sustained uterine growth (wet weight) when measured at 24 and 72 hr, but total soluble protein and total DNA per uterus was not increased. By comparison, 3 μg of estradiol-17β under the same conditions significantly increased all three parameters of uterine growth. Both of the above steroid treatments significantly increased nuclear estrogen receptor content of the uterus, but only the estradi-ol-17β treatment resulted in significantly elevated cytosol receptor content per uterus. Anordrin binds to the 8S estrogen receptor with an affinity of about 2 × 10⁵ M^-1 as determined by competition with [³H]estradiol-17β. The abortifacient activity of Anordrin when given orally (8 mg/kg b.w.) to mice on the 7th day of pregnancy was almost completely blocked by simultaneous oral administration of estradiol-17β (0.8 mg/kg b.w.). It is concluded that the actions of Anordrin on the uterus can be attributed to its antiestrogenic activities.     

Effects of estrogen and progesterone on uterine sialic acid in ovariectomized rats

The effects of estradiol-17β and progesterone on uterine sialic acid of ovariectomized rats have been examined. In contrast to a previous report, progesterone was found in two of three experiments of different design to increase uterine sialic acid concentration above that produced by estradiol-17β alone; in the third experiment, it had no significant effect. This effect of progesterone was independent of the duration of treatment with exogenous hormones or of whether or not uterine luminal fluid was removed by blotting before assaying sialic acid. In a factorially designed experiment with four levels of estradiol-17β and three of progesterone, a dose-response relationship was found between estradiol-17β, but not progesterone, and uterine sialic acid concentration. It is concluded that, in some circumstances, estrogen and progesterone can act synergistically to increase uterine sialic acid concentration.     

Steroid estrogen conjugates in hens' urine II. identifications of some minor conversion products of intramuscularly injected [4-14c]estrone

[4-¹⁴C]Estrone was injected intramuscularly into two mature laying Rhode Island Red hens. Radioactive steroids and steroid conjugates recovered from the urine on Amberlite XAD-2 columns were fractionated on columns (100 cm) of DEAE-Sephadex A-25 by NaCl gradients. The presences of the following were confirmed, the figures in brackets indicating average proportions as per cent of total radioactivity recovered after Sephadex column chromatography: -the 3-β-glucuronides of estrone (10. 9) and of estradiol-17α plus estradiol-17β(9.8); the 17-β-glucuronides of estradiol-17α plus estradiol-17β (2.1); the 3-sulfates of estrone (14. 5) and of estradiol-17α plus estradiol-17β (27. 4); and the disulfates of estradiol-17α plus estradiol-17β (2. 3). The following additional conjugates were identified:-a β-glucuronide of 16-epiestriol (0.2) and a β-glucuronide of 16-ketoestradiol-17β (0. 2); the 3-sulfates of 16-epiestriol (1. 4), of 17-epiestriol (0. 9), of 16, 17-epiestriol (0. 7), of 16-keto-estradiol-17β (1. 1), and of 2-methoxyestrone (0. 7). Some evidence was obtained for the presence of 16, 17-epoxy-estratrienol-3-sulfate (1.9).     

In vitro mycotoxin binding to bovine uterine steroid hormone receptors

The mycotoxins, aflatoxin B(1), aflatoxin M(1), aflatoxicol and zearalenone were tested for binding to bovine endometrial estrogen and progestin receptors. Radioinert estradiol-17beta, estrone, testosterone, and cholesterol were evaluated for binding to the estrogen receptor. Zearalenone and aflatoxicol but not aflatoxins B(1) and M(1) competed with estradiol-17beta for the estrogen receptor. The order of binding affinities for the estrogen receptor were zearalenone > estradiol-17beta > estrone > aflatoxicol. The affinity of zearalenone for the estrogen receptor was 2-3 times that of estradiol-17beta. Progesterone, cortisol, radioinert R 5020, and cholesterol were evaluated for binding to the progestin receptor. None of the tested compounds except R 5020 and progesterone competed for the progestin receptor. The significance of aflatoxicol binding to the estrogen receptor is unclear. It is proposed that aflatoxicol binding to the receptor may alter gene expression in target tissues or act at the level of the hypothalamus to inhibit gonadotropin secretion and ovulation. These effects could explain reports of reduced fertility in domestic animals following ingestion of aflatoxin contaminated feedstuffs. It is also suggested that the mechanism of adverse effects on fertility of chronic aflatoxin ingestion in cattle and other livestock should be more thoroughly investigated.     

Structure-activity relationships of 9β-estrogens

The 9β isomers of estradiol-17β, estradiol-17α, estrone and 17-ethinylestradiol-17β were synthesized and compared with their 9α-counterparts in the rat uterine cytosol estrogen receptor, utero-tropic, and gonadotropin release inhibition assays. Except for 17-ethinyl-9β-estradiol-17β which was as active as its 9α isomer in the uterotropic assay, none of the 9β estrogens exhibited any biological activity which was equal to or greater than their 9α counterparts. For examples, 9β-estradiol-17β was $\text{1}\text{10}$ as active as estradiol-17β, and 9β-estrone was $\text{1}\text{4}$ as active as estrone in the uterotropic assay.     

Comparative properties of the catechol estrogens,I: Methylation by catechol-O-methyltransferase and binding to cytosol estrogen receptors

Five catechol estrogens and two 2-methoxyestrogens were compared for their relative affinity of binding to hypothalamic, pituitary and uterine cytosol estrogen receptors; and for the kinetics of the catechols' methylation by hepatic catechol-O-methyltransferase. All of the catechol estrogens tested have similar K_m 's for O-methylation (9–14 μM). Estrogen receptor affinities, however, differ widely. In hypothalamus, for example, where estradiol-17β has a K_d of 0.039 ± 0.008 nanomolar, 4-hydroxyestradiol also binds tightly (0.12 ± 0.02 nM), 2-hydroxyestradiol and 4-hydroxyestrone with intermediate affinity (0.26 ± 0.06 and 0.28 ± 0.07 nM, respectively), and 2-hydroxyestrone and 2-hydroxyestriol much less well (1.68 ± 0.79 and 1.27 ± 0.26 nM, respectively). The binding of the 2-methoxyestrogens is extremely weak. These receptor affinities roughly parallel the potencies of these compounds in altering gonadotropin secretion.     

Cell growth and cell proliferation may be dissociated in the mouse uterine luminal epithelium treated with female sex steroids

The mouse uterine epithelium under various hormonal regimes is a good system to identify biochemical events associated with cell growth, DNA synthesis and cell division. This is because estradiol-17β stimulates the cells to undergo a synchronized wave of DNA synthesis and cell division. Estriol, on the other hand, also stimulates DNA synthesis but because of the rapid loss of this hormone from the tissue some of the cells abort, giving a constant epithelial cell number. Three days of progesterone pretreatment, however, completely suppresses the estradiol-17β-induced wave of DNA synthesis and cell proliferation.Using these hormonal treatments we have shown that both estradiol-17β and estriol stimulate protein and rRNA synthesis with the concomitant increase of protein and rRNA per mg of DNA. These macromolecules accumulated in direct proportion to the fraction of cell committed to DNA synthesis. Estriol, however, did not sustain the growth responses and at the peak of DNA synthesis both rRNA and protein synthesis had returned to control levels. Progesterone pretreatment, despite inhibiting the proliferative response, failed to inhibit any of the estradiol-17β-induced increases in protein and rRNA synthesis. Indeed 12 h after estradiol-17β injection the cells had identical protein and rRNA contents, regardless of whether they had been exposed to progesterone or not.The present data therefore suggests that in the uterine epithelium cell growth as defined by protein and rRNA accumulation and DNA synthesis represents two independently regulated pathways.     

Luteinizing hormone concentrations in anestrous ewes administered various estrogens

Twenty four anestrous ewes were evenly assigned to one of six groups and administered either sesame oil, estradiol-17β, estradiol-17α, estrone, estradiol benzoate or estradiol valerate. All estrogen treated ewes received 50 μg of the respective estrogen. Blood plasma was collected for 28 hours post-treatment and quantified for luteinizing hormone (LH) by radioimmunoassay. An estrogen induced LH surge was detected in at least three of the four ewes administered either estradiol-17β, estrone, estradiol benzoate or estradiol valerate whereas only one of the four estradiol-17α treated ewes and none of the ewes administered sesame oil had an LH surge. The interval from treatment to peak LH was similar for estradiol-17β (17.3±2.7 hours), estrone (18.5±1.0 hours) and estradiol benzoate (19.0±0.6 hours) treated ewes but delayed 7 to 9 hours for ewes administered estradiol valerate (26.0±1.2 hours).     

Binding of (3H)7 alpha,17 alpha-dimethyl-19-nortestosterone (mibolerone) to progesterone receptors: comparison with binding of (3H)R5020 and (3H)ORG2058

The binding characteristics of (3H)7 alpha,17 alpha-dimethyl-19-nortestosterone [3H)DMNT) to progesterone receptors (PgR) of calf uterine tissue cytosol were determined and compared to those of the synthetic progestins (3H)ORG2058 and (3H)R5020. Scatchard plot analysis of the equilibrium binding data showed that (3H)DMNT binds to calf uterine PgR with a KD of 2.35 +/- 1.1 nM. This value is slightly higher than that of (3H)R5020 (KD = 1.16 +/- 0.4 nM) and (3H)ORG2058 (KD = 1.04 +/- 0.65 nM). Analysis of dissociation kinetics showed that (3H)DMNT dissociates much more rapidly from the receptor than the other two ligands. Competition experiments showed that ORG2058 has a lower inhibition constant (Ki) than DMNT. Sucrose density gradient (SDG) analysis of PgR showed that (3H)ORG2058-PgR complexes sediment as 8S, (3H)R5020-PgR complexes sediment as 8S and 4S, and (3H)DMNT-PgR complexes sediment as 8S entities along with dissociated (3H)steroid. These data suggest that (3H)DMNT binds to PgR with lower affinity than (3H)ORG2058 and (3H)R5020. The number of binding sites detected with (3H)DMNT are significantly lower than those measured with (3H)ORG2058.     

Effects of analogues of prostaglandins E2 and F2α on uterine luminal fluid accumulation in the estrogen-treated ovariectomized rat: An indirect measure of cervical tone

Experiments were performed to determine if prostaglandins were able to reduce cervical tone in the rat. Cervical tone was assessed indirectly by measuring uterine luminal fluid accumulation in ovariectomized rats implanted subcutaneously with Silastic capsules containing crystalline estradiol-17β. When given subcutaneously in separate experiments, 16,16-dimethyl-prostaglandin E₂, methyl ester, and 15(S)-15-methyl-prostaglandin F_2α, analogous of prostaglandins E₂ and F_2α, respectively, caused the loss of uterine luminal fluid. Fluid accumulation in uterine horns ligated at the cervical end did not differ in control and treated rats, whereas in non-ligated horns the prostaglandin analogues reduced fluid accumulation, suggesting the cervix as their site of action. For both prostaglandin analogues, the effects on uterine luminal fluid accumulation were seen within 45 min of administration and were related to the dose administered. The effects of submaximal doses of the analogues were additive. These results suggest that prostaglandins are able to reduce cervical tone in the estrogen-treated rat.     

Reversible, positive cooperative interaction of 11 beta-chloromethyl-[3H]estradiol-17 beta with the calf uterine estrogen receptor

The binding of 11 beta-chloromethyl-[3H]estradiol-17 beta [3H]CME2) with the calf uterine estrogen receptor was investigated. The equilibrium binding analysis indicated a positive cooperative interaction yielding curvilinear Scatchard plots and Hill coefficients of 1.4-1.5. This positive cooperative interaction of [3H]CME2 was indistinguishable from the typical cooperative interaction of [3H]estradiol with the receptor. The apparent relative association constant and the relative binding affinity of CME2 for the estrogen receptor measured by competitive binding assay were 146 and 184%, respectively. The dissociation kinetics of [3H]CME2 from the receptor was biphasic, composed of a fast dissociating component (15%, t1/2 = 4 min at 0 degrees C; 9%, t1/2 = 4 min at 28 degrees C) and a slow dissociating component (85%, t1/2 greater than 50 h at 0 degrees C; 91%, t1/2 greater than 50 h at 28 degrees C). The dissociation kinetics of [3H]estradiol was also biphasic: the t1/2 of the fast dissociating component was 4 min at 0 and 28 degrees C and approximately 200 min for the slow dissociating component at both temperatures. The fraction of the slow [3H]estradiol dissociating component increased from 56 to 92% upon warming. Ethanol extraction and trichloroacetic acid treatment proved that the binding of [3H]CME2 is fully reversible. The unusual dissociation kinetics and the binding mechanism of CME2 are discussed.     

Steroidal control of rat uterine 17β-hydroxysteroid dehydrogenase activity

The interconversion of estradiol-17β and estrone in the rat uterus is due to the action of 17β-hydroxysteroid dehydrogenase. Whole uteri or 800 × g supernatant fractions of the uteri were incubated in the presence of [³H] estradiol-17β and NAD at 37°C for 3 h or 1 h, respectively. In the mature rat uterus the oxidation of estradiol-17β and estrone was dependent on the stage of the estrous cycle, suggesting hormonal control. The 17β-hydroxysteroid dehydrogenase activity was highest at estrus (200 fmol estrone) and lowest at diestrus (80 fmol estrone). An enhancement of activity occurred when adult rats at each stage of the estrous cycle were administered estradiol-17β, while progesterone administration at each stage resulted in decreased enzyme activity. The uterine 17β-hydroxysteroid dehydrogenase activity of estradiol-17β treated ovariectomized rats was time and dose dependent but decreased when progesterone was administered with or without estradiol-17β administration. These results suggest that estradiol-17β caused an increase in enzyme activity that was inhibitable by progesterone in the rat uterus. The increased 17β -hydroxysteroid dehydrogenase activity may reflect a specific response of the rat uterus to estradiol-17β.     

Influence of estrogen on glutathione levels and glutathione-metabolizing enzymes in uteri and R3230AC mammary tumors of rats

The glutathione content and the activities of several enzymes in its metabolism, glutathione reductase, glutathione peroxidase and γ-glutamyl transpeptidase, were assayed in uteri obtained from estrogen-treated rats and in R3230AC mammary adenocarcinomas obtained from ovariectomized, intact and estrogen-treated hosts. Normal mammary glands, obtained 10–12 days post-partum, were also examined for these parameters.A daily pharmacological dose of 0.4 μg of estradiol-17β induced a maximal increase in uterine weight and in reduced glutathione (GSH); higher doses of estrogen did not significantly increase either of these parameters. Levels of oxidized glutathione (GSSG) were comparable in both estrogen-treated and untreated rats. The time course of the estrogen-induced uterotrophic response was associated with increases in glutathione reductase, glutathione peroxidase and γ-glutamyl transpeptidase activities with the increased GSH level preceding the increase in uterine weight. Compared to neoplasms from intact or ovariectomized animals, tumors from estrogen-treated hosts exhibited significant decreases in levels of GSSG and GSH, as well as in glutathione reductase and glutathione peroxidase activities, but demonstrated a significant elevation of γ-glutamyl transpeptidase activity. Normal glands from lactating rats had decreased GSH levels, lower activities of glutathione reductase and glutathione peroxidase, but elevated γ-glutamyl transpeptidase activity versus tumors from intact rats. Tumors from estrogen-treated rats more closely resembled mammary glands during lactation. The divergent growth responses elicited by estrogen in the uterus and mammary tumor are correlated with the observed changes in GSH levels and enzymes involved in glutathione metabolism.     

Binding of 2-hydroxyestradiol and 4-hydroxyestradiol to estrogen receptors from human breast cancers

The binding of catechol estrogens, epoxyenones and methoxyestrogens was evaluated using estrogen receptors in cytosol prepared from human breast cancers. The relative affinity of 2-hydroxyestradiol, a metabolite formed in vitro from estradiol-17 beta by breast cancer cells, was indistinguishable from that of estradiol-17 beta. 4-Hydroxyestradiol, which is also a metabolite of estradiol-17 beta, associated with the estrogen receptor with a relative affinity approximately 1.5-fold greater than that of estradiol-17 beta. Epoxyenones and methoxyestrogens were weak competitors compared to the binding of estradiol-17 beta, exhibiting relative affinities 3% or less than the affinity of estradiol-17 beta. Sucrose density gradient centrifugation revealed that both 2- and 4-hydroxyestradiol inhibited the binding of estradiol-17 beta to both the 4S and 8S isoforms of the estrogen receptor in a competitive manner, with a Ki = 0.94 nM for 2-hydroxyestradiol and a Ki = 0.48 nM for 4-hydroxyestradiol. It can be concluded that these data demonstrate a specific receptor-mediated estrogenic action for both of these catechol estrogens.     

Isolation and characterization of an estrogen binding protein which may integrate the plethora of estrogenic actions in non-reproductive organs

A putative estrogen receptor (pER) from mouse liver has been characterized. The heterodimer protein (81–84 kDa) consists of two covalently bound subunits (61–67 and 17–27 kDa) with following characteristics: sedimentation constant — 4.9 S; IP — 4.8; dissociation constant (K_d) for estradiol-17β binding — 0.7 nmol; binding sites — 0.746 pmol/mg protein; relative binding affinity — estradiol-17β — 100, estrone — 80 and estriol — 30; specificity — does not bind, other natural steroids, synthetic estrogens, antiestrogens and bioflavonoids. Importantly, immunosuppressants, neuroleptic and carcinogens influence ³H-estradiol-17β binding to pER. Interestingly, pER is a serine phosphatase and this may have relevancy to estrogen action in Alzheimer's disease. The polyclonal anti-pER antibody does not react with estrogen receptors (ER). ER antibody does not react with pER. Remarkably, anti-pER antibody reacts with calcineurin, a brain phosphatase and anti-calcineurin antibody reacts with pER. Immunohistochemical analyses showed that pER is undetectable in reproductive organs (except ovary). It is localized on the plasma or the nuclear membranes in some, in cytoplasm and/or nucleus in other cells of non-reproductive organs (skeletal, neural, vascular, hair and retina), and in tumors (mammary, endometrial and prostate cancers, and prostatic hyperplasia). The information presented justifies the proposition that pER may mediate the estrogenic actions in non-reproductive organs.     

3-Alkyl-2-phenylbenzo[b]thiophenes: Nonsteroidal estrogen antagonists with mammary tumor inhibiting activity

A number of 2-(4-hydroxyphenyl)benzo[b]thiophenes with a hydroxy group in position 5 or 6 and a short alkyl group at C-3 were synthesized and studied for their estrogen receptor affinities. Relative binding affinities (RBA) for the calf uterine estrogen receptor ranged from 3 to 60 (17β-estradiol = 100). The highest RBA values were found with ethyl derivatives [3 (5-OH): 60; 7 (6-OH): 28]. In accord with their receptor affinity, all benzothiophenes exhibited endocrine activity in the immature mouse uterine weight test. At doses of 0.25–7.0 mg/kg body weight, they showed partial estrogen antagonism and usually weak estrogenic effects. All compounds entered tests with hormone-sensitive human MCF-7 breast cancer cells. At concentrations of 1μM and higher, most of the derivatives displayed significant inhibition of cell growth. These results prompted us to test them in vivo for cytostatic activity using hormone-dependent MXT mouse mammary tumors. The 5-hydroxy derivatives 3 and 4 strongly inhibited the growth of these tumors. After 4 weeks of treatment with 3 × 4.2 mg/kg of compound 3, the average tumor weight was reduced by 83% vs control (tamoxifen at equimolar dose: 74%). The 6-hydroxy derivative 7 required higher doses (25 mg/kg) to give rise to the same effect. At the end of therapy, no increase of uterine weight due to an estrogenic effect was observed. We assume therefore that the antineoplastic activity of these compounds in this tumor model is due mainly to their estrogen antagonism.