[Fragmentation pathways of five estrogens using electrospray ionization quadrupole time-of-flight mass spectrometry].

The fragmentation pathways of five estrogens (estradiol, estrone, equilin sulfate, 17 a-dihydroequilin sulfate and equilenin sulfate) have been studied with high resolution and high mass accuracy using electrospray ionization quadrupole time-of-flight mass spectrometry (ESI-Q-TOF/MS) in the negative ion mode. Molecular weights were obtained from [M-H](-) ions in the product ion spectra. The results indicate that the five structurally similar estrogens have similar fragmentation pathways. Using their stable isotope forms as internal reference compounds, the accurate mass and composition of the fragment ions were determined. During collision-induced dissociation (CID), cleavage is initiated by loss of oxygen atoms from carbon-17, after which D and C rings cleave sequentially and rearrange to finally form stable conjugate structures with highly abundant characteristic fragment ions at m/z 183 (accompanied by m/z 181), m/z 169 and m/z 145 (accompanied by m/z 143). Understanding these characteristic fragmentation pathways of estrogens will be helpful in identifying the structures of steroid hormones in general.

Quantitative detection of 4-hydroxyequilenin-DNA adducts in mammalian cells using an immunoassay with a novel monoclonal antibody.

Estrogen-DNA adducts are potential biomarkers for assessing the risk and development of estrogen-associated cancers. 4-Hydroxyequilenin (4-OHEN) and 4-hydroxyequilin (4-OHEQ), the metabolites of equine estrogens present in common hormone replacement therapy (HRT) formulations, are capable of producing bulky 4-OHEN-DNA adducts. Although the formation of 4-OHEN-DNA adducts has been reported, their quantitative detection in mammalian cells has not been done. To quantify such DNA adducts, we generated a novel monoclonal antibody (4OHEN-1) specific for 4-OHEN-DNA adducts. The primary epitope recognized is one type of stereoisomers of 4-OHEN-dA adducts and of 4-OHEN-dC adducts in DNA. An immunoassay with 4OHEN-1 revealed a linear dose-response between known amounts of 4-OHEN-DNA adducts and the antibody binding to those adducts, with a detection limit of approximately five adducts/10(8) bases in 1 microg DNA sample. In human breast cancer cells, the quantitative immunoassay revealed that 4-OHEN produces five times more 4-OHEN-DNA adducts than does 4-OHEQ. Moreover, in a mouse model for HRT, oral administration of Premarin increased the levels of 4-OHEN-DNA adducts in various tissues, including the uterus and ovaries, in a time-dependent manner. Thus, we succeeded in establishing a novel immunoassay for quantitative detection of 4-OHEN-DNA adducts in mammalian cells.

Occurrence of estrogen hormones in biosolids, animal manure and mushroom compost.

The presence of natural estrogen hormones as trace concentrations in the environment has been reported by many researchers and is of growing concern due to its possible adverse effects on the ecosystem. In this study, municipal biosolids, poultry manure (PM) and cow manure (CM), and spent mushroom compost (SMC) were analyzed for the presence of seven estrogen hormones. 17α-estradiol, 17ß-estradiol, 17α-dihydroequilin, and estrone were detected in the sampled biosolids and manures at concentrations ranging from 6 to 462 ng/g of dry solids. 17α-estradiol, 17ß-estradiol, and estrone were also detected in SMC at concentrations ranging from 4 to 28 ng/g of dry solids. Desorption experiments were simulated in the laboratory using deionized water (milli-Q), and the aqueous phase was examined for the presence of estrogen hormones to determine their desorption potential. Very low desorption of 0.4% and 0.2% estrogen hormones was observed from municipal biosolids and SMC, respectively. An estimate of total estrogen contribution from different solid waste sources is reported. Animal manures (PM and CM) contribute to a significant load of estrogen hormones in the natural environment.

Free synthetic and natural estrogen hormones in influent and effluent of three municipal wastewater treatment plants.

Three municipal wastewater treatment plants (WWTPs) in southeastern Pennsylvania were sampled to determine the presence and concentrations of 12 natural and synthetic estrogen hormones in the wastewater influent and effluent. The target estrogens were 17alpha-estradiol, estrone, estriol, equilin, 17alpha-dihydroequilin, 17beta-estradiol, 17alpha-ethinyl estradiol, gestodene, norgestrel, levonorgestrel, medrogestone, and trimegestone. One WWTP uses a biofilm reactor (packed-bed trickling filter),and the other two use suspended-growth media (continuously stirred activated sludge reactor and sequential batch reactor). Estrone was detected in all the three plants; estriol and estradiol were detected at two WWTPs; and 17 alpha-dihydroequilin and 17 alpha-ethinyl estradiol were detected at one WWTP. The concentration of estrogens in the influent and effluent of the three treatment plants ranged from 1.2 to 259 ng/L and 0.5 to 49 ng/L, respectively. The percentage removal of estrogens from the aqueous phase ranged from 41 to 99%, except in the case of 17alpha-dihydroequilin; the removal of 17alpha-dihydroequilin was negligible. The suspended-growth media systems showed higher removal efficiencies for estrogens than the biofilm system. The analytical method uses a Varian C-18 solid-phase extraction (Varian Inc., Palo Alto, California), followed by a derivatization with bis(trimethylsilyl)trifluoroacetamide. The detection limits for the estrogen compounds ranged from 0.1 to 10 ng/L using a sample size of 1 L. The method recoveries ranged from 71 to 120%, and the relative standard deviation ranged from 6 to 14% for all the hormones.

The estrogen metabolite 17beta-dihydroequilenin counteracts interleukin-1alpha induced expression of inflammatory mediators in human endothelial cells in vitro via NF-kappaB pathway.

In most studies showing cardio- and vasculoprotective effects of estrogens, 17beta-estradiol was used and little information on possible effects of different estrogen metabolites is yet available. We investigated whether particular estrogen metabolites are effective in counteracting inflammatory activation of human endothelium. Human endothelial cells were incubated with 17alpha-dihydroequilenin, 17beta-dihydroequilenin, delta-8,9-dehydroestrone, estrone and 17beta-estradiol and stimulated with interleukin (IL)-1alpha. The expression of IL-6, IL-8 and monocyte chemoattractant protein-1 (MCP-1) was determined. 17beta-dihydroequilenin and 17beta-estradiol at a concentration of 1 microM reduced IL-1alpha-induced up regulation of IL-6, IL-8 and MCP-1 close to control levels. When both compounds were used in combination an additive effect was observed. 17alpha-dihydroequilenin and delta-8,9-dehydroestrone showed a similar anti-inflammatory effect only when used at 10 microM whereas estrone had no effect. The effect of 17beta-dihydroequilenin on IL-1alpha-induced production of IL-6, IL-8 and MCP-1 was reversed by the estrogen receptor antagonist ICI 182,780. 17beta-dihydroequilenin also inhibited IL-1alpha-induced translocation of p50 and p65 to the nucleus of the cells. We have identified the estrogen metabolite 17beta-dihydroequilenin, as an inhibitor of inflammatory activation of human endothelial cells. Characterization of specific estrogens--as shown in our study--could provide the basis for tailored therapies, which might be able to achieve vasoprotection without adverse side effects.

Separation and detection of the isomeric equine conjugated estrogens, equilin sulfate and delta8,9-dehydroestrone sulfate, by liquid chromatography--electrospray-mass spectrometry using carbon-coated zirconia and porous graphitic carbon stationary phases.

Equilin-3-sulfate and delta8,9-dehydroestrone-3-sulfate are two isomers found in equine conjugated estrogens that differ in structure only by the position of a double bond in the steroid B-ring. These geometric isomers were not resolved on a C18 column during the analysis of conjugated estrogen drug products by LC-MS using acetonitrile-ammonium acetate buffer as the mobile phase. While no separations of these two isomers were observed on C18 or other alkyl-bonded silica based phases using a variety of mobile phase conditions, partial separations were achieved on phenyl bonded silica phases with a resolution of 1.5 on a diphenyl phase, and baseline separations were readily achieved on two carbonaceous phases with resolutions routinely exceeding three on graphitic carbon-coated zirconia (Zr-CARB) and resolutions as high as 19 on porous graphitic carbon (Hypercarb). An examination of a selected few conjugated estrogens in the complex drug substance by LC-MS on Hypercarb is presented.

Celecoxib influences steroid sulfonation catalyzed by human recombinant sulfotransferase 2A1.

Celecoxib has been reported to switch the human SULT2A1-catalyzed sulfonation of 17ß-estradiol (17ß-E2) from the 3- to the 17-position. The effects of celecoxib on the sulfonation of selected steroids catalyzed by human SULT2A1 were assessed through in vitro and in silico studies. Celecoxib inhibited SULT2A1-catalyzed sulfonation of dehydroepiandrosterone (DHEA), androst-5-ene-3ß, 17ß-diol (AD), testosterone (T) and epitestosterone (Epi-T) in a concentration-dependent manner. Low µM concentrations of celecoxib strikingly enhanced the formation of the 17-sulfates of 6-dehydroestradiol (6D-E2), 17ß-dihydroequilenin (17ß-Eqn), 17ß-dihydroequilin (17ß-Eq), and 9-dehydroestradiol (9D-E2) as well as the overall rate of sulfonation. For 6D-E2, 9D-E2 and 17ß-Eqn, celecoxib inhibited 3-sulfonation, however 3-sulfonation of 17ß-Eq was stimulated at celecoxib concentrations below 40 µM. Ligand docking studies in silico suggest that celecoxib binds in the substrate-binding site of SULT2A1 in a manner that prohibits the usual binding of substrates but facilitates, for appropriately shaped substrates, a binding mode that favors 17-sulfonation.

In vivo metabolism of [3H]equilin in the pregnant mare.

[3H]Equilin [3H-labeled 3-hydroxy-1,3,5(10), 7-estratetraen-17-one] was administered iv to a pregnant mare in the 10th month of gestation. Maternal urine was collected for 3 days, and blood samples were taken 35 min and 3, 6, 12, and 24 h after the injection. The half-life of the disappearance of radioactivity from the blood was approximately 2.5 h. Over 90% of the administered dose was excreted in the first 24 h. The urine was extracted, hydrolyzed, and fractionated. The bulk of the radioactive material (75%) was present in the phenolic sulfate fraction from which radiochemically pure equilin, equilenin [3-hydroxy-1,3,5(10),6,8-estrapentaen-17-one], 17 alpha-dihydroequilin [1,3,5(10), 7-estratetraen-3,17 alpha-diol], 17 beta-dihydroequilin [1,3,5-(10,7-estratetraen-3,17 beta-diol], 17 alpha-dihydroequilenin [1,3,5(10),6,8-estrapentaen-3,17 alpha-diol], and 17 beta-dihydroequilenin [1,3,5(10),6,8-estrapentaen-3,17 beta-diol] were isolated and identified. Except for equilenin, the above-named steroids were also isolated and identified from the glucuronide fraction. Along with these estrogens, the two classical estrogens, estrone and 17 alpha-estradiol, were also isolated, but both of these estrogens were devoid of any radioactivity. These results indicate that 1) the B ring unsaturated estrogens are not metabolized to the B ring saturated estrogens (classical estrogens), 2) all of the B ring unsaturated estrogens isolated and identified from the pregnant mare's urine are metabolites of equilin, 3) the major metabolite of equilin excreted in the urine was equilin sulfate, 4) from the specific activity of the isolated equilin sulfate and the amount of [3H]equilin injected, the secretion rate of equilin was calculated to be 96 mg/24 h, and 5) the major reduced metabolites of equilin are the biologically less active 17 alpha-reduced products.

Pharmacokinetics of 17 beta-dihydroequilin sulfate and 17 beta-dihydroequilin in normal postmenopausal women.

The MCRs of 17 beta-dihydroequilin sulfate and 17 beta-dihydroequilin were determined in normal postmenopausal women by single iv injection of either 17 beta-[3H]dihydroequilin sulfate ([3H]17 beta-EqS) or 17 beta-[3H]dihydroequilin ([3H]17 beta-Eq). After the administration of [3H]17 beta-EqS, blood was drawn at various time intervals, and the plasma obtained was fractionated into the unconjugated, sulfate, and glucuronide fractions. The bulk of radioactivity was present in the sulfate fraction, and from this [3H]17 beta-EqS, [3H]equilin sulfate, [3H]equilenin sulfate, and 17 beta-[3H]dihydroequilenin sulfate were isolated and purified, and their concentrations were measured. The disappearance of [3H]17 beta-EqS from plasma can be described as a function of two exponentials. The half-life of the initial fast component was 5 +/- 0.2 min; this component represents the distribution and transfer from a space, with a mean volume (V1) of 6 +/- 0.5 L. The value for the rate constant (k) of total removal from this space was 300 +/- 20 U/day, of which 35 +/- 2% was irreversible. The mean half-life of the slower component of 17 beta-EqS was 147 +/- 15 min, and the mean MCR was 376 +/- 93 L/day.m2. Similarly, after the administration of [3H]17 beta-Eq, the disappearance of radioactivity as 17 beta-Eq from plasma also had two components. The half-lives of the fast and slow component were 5.5 +/- 0.8 and 45 +/- 2.0 min, respectively. The MCR of 17 beta-Eq was 1252 +/- 103 L/day.m2. From both series of experiments, unconjugated and sulfate-conjugated equilin, equilenin, and 17 beta-dihydroequilenin were isolated and purified, and their concentrations were measured. No 17 alpha-reduced metabolites were detected. These results indicate that 17 beta-EqS is cleared twice as fast as equilin sulfate (MCR, 176 L/day.m2), whereas the more potent estrogen 17 beta-Eq is cleared 2 times slower than equilin. The slower elimination and greater estrogenic activity of 17 beta-Eq support the hypothesis that the major in vivo activity of equilin sulfate present in conjugated equine estrogen preparations is expressed via its metabolites 17 beta-EqS and 17 beta-Eq.

Metabolism of [3H]equilin-[35S]sulfate and [3H]equilin sulfate after oral and intravenous administration in normal postmenopausal women and men.

The absorption of equilin sulfate and equilin from the gastrointestinal tract was determined in normal men after the ingestion of [3H]equilin-[35S]sulfate or a mixture of [3H]equilin and equilin-[35S]sulfate, while the metabolism of equilin sulfate was investigated after iv administration of [3H]equilin sulfate to postmenopausal women. After the oral administration of [3H]equilin-[35S]sulfate, equilin sulfate containing both 3H and 35S was isolated from plasma; however, only in the first sample taken at 10 min was the 3H/35S ratio the same as that of the [3H]equilin-[35S]sulfate ingested. The 3H/35S ratio then increased, and by 12 h only traces of equilin-[35S]sulfate were detectable. Similarly, after the ingestion of [3H]equilin and equilin-[35S]sulfate, [3H]equilin-[35S]sulfate was isolated from plasma. The 3H/35S ratio was at all time points greater than the 3H/35S ratio of the ingested mixture. Analysis of urine indicated that over 98% of 35S was not associated with any steroid and was most likely inorganic sulfate. After iv administration of [3H] equilin sulfate to postmenopausal women, equilin, equilenin, 17 beta-dihydroequilin, and 17 beta-dihydroequilenin were isolated from the urine. These results indicate that 1) some of the orally administered equilin sulfate was absorbed from the gut without prior hydrolysis, 2) some equilin sulfate was hydrolyzed in the gut before absorption; 3) equilin was absorbed more efficiently than equilin sulfate; 4) equilin absorbed was readily sulfated and circulated in this form; and 5) equilin sulfate was extensively metabolized, and the metabolites were excreted in the urine mainly conjugated with glucuronic acid.

Pharmacokinetics of equilin and equilin sulfate in normal postmenopausal women and men.

The MCRs of equilin sulfate and equilin were determined in normal postmenopausal women and a normal man by single iv injections of either [3H]equilin sulfate or [3H] equilin. After the administration of [3H]equilin sulfate, blood was drawn at various time intervals, and the plasma obtained was fractionated into the unconjugated, sulfate, and glucuronide fractions. The bulk of radioactivity was present in the sulfate fraction, and from this, [3H]equilin sulfate, [3H]17 beta-dihydro-equilin sulfate, [3H]equilenin sulfate, and [3H]17 beta-dihydroequilenin sulfate were isolated and purified, and their concentrations were measured. The disappearance of radioactivity from plasma as equilin sulfate can be described as a function that is the sum of two exponentials. The initial fast component (half-life, 5.2 +/- 1.2 min) represents distribution and transfer from a space, with a mean volume of 12.4 +/- 1.6 liters. The mean value for the rate constant of total removal from the initial volume is 163 +/- 19 U/day, of which 15.8 +/- 2% is irreversible. The mean half-life of the slower component of equilin sulfate is 190 +/- 23 min, and the mean MCR is 176 +/- 44 liters/day . m2. Similarly, after the administration of [3H]equilin to a normal postmenopausal woman and a man, the disappearance of radio-activity from plasma as equilin could be fitted by a single straight line, consistent with a one-compartment system. The half-life of equilin was approximately 19-27 min, and the MCR of equilin was calculated to be 1982 liters/day/m2 in the normal man and 3300 liters/day/m2 in the normal postmenopausal woman. The bulk of [3H]equilin was very rapidly metabolized to mainly equilin sulfate. Small amounts of 17 beta-dihydroequilin sulfate and 17 beta-dihydroequilin were also isolated from the plasma. The in vivo formation of 17 beta-dihydroequilin and its sulfate may be of importance, as this estrogen is approximately 8 times more potent as a uterotropic agent than equilin sulfate.

Metabolic clearance rate of equilin sulfate and its conversion to plasma equilin, conjugated and unconjugated equilenin, 17 beta-dihydroequilin, and 17 beta-dihydroequilenin in normal postmenopausal women and men under steady state conditions.

The constant infusion of [3H]equilin sulfate ([3H]EqS) was used to estimate the MCR of equilin sulfate (EqS) and to measure the conversion of this estrogen to equilin (Eq), equilenin (Eqn), equilenin sulfate (EqnS), 17 beta-dihydroequilin (17 beta-Eq), 17 beta-dihydroequilin sulfate (17 beta-EqS), 17 beta-dihydroequilenin (17 beta-Eqn), and 17 beta-dihydroequilenin sulfate (17 beta-EqnS) in normal postmenopausal women and men. Infusion of [3H]EqS was started in five postmenopausal women and two men 30 min after a priming dose and continued at a constant rate of 12-15 microCi/h for 3 h. Blood samples were taken 15 min before the end of infusion, at the end of the infusion, and 15 min after the end of infusion. Unconjugated and sulfate-conjugated Eq, Eqn, 17 beta-Eq, and 17 beta-Eqn were isolated from plasma. The mean MCR of EqS was calculated to be 280 +/- 24 L/day or 170 +/- 18 L/day.m2. The mean conversion ratios for precursor EqS to product 17 beta-EqS, EqnS, 17 beta-EqnS, 17 beta-Eq, Eq, Eqn, and 17 beta-Eqn were 0.300, 0.190, 0.100, 0.020, 0.016, 0.008, and 0.004 respectively. In both the sulfate-conjugated and unconjugated forms, 17 beta-Eq was the most abundant metabolite formed. 17 beta-Eq estrogen is a potent uterotropic agent and has a much higher affinity for estrogen receptors than Eq. Its formation may be of importance in the overall biological activity of EqS present in conjugated equine estrogen preparations.

Transport of equine estrogens: binding of conjugated and unconjugated equine estrogens with human serum proteins.

The binding of ring B unsaturated equine estrogens, equilin sulfate (EqS), equilin (Eq), and 17 beta-dihydroequilin (17 beta-Eq) with human serum proteins was determined and compared with the binding of estrone sulfate (E1S), estrone (E1), estradiol (E2), testosterone (T), and 5 alpha-dihydrotestosterone (5 alpha-DHT). Undiluted serum or 5% human serum albumin (HSA) was incubated with 3H-labeled steroids at 37 C, then subjected to gel filtration at 4 C. Gel filtration of serum from Premarin-treated postmenopausal women or normal women incubated with Eq, E1, E2, or 5 alpha-DHT showed two peaks of radioactivity associated with proteins with average apparent mol wt of 128,000 and 68,000 and average Stokes radii of 48.6 and 34.9 A. These values correspond to those reported for sex hormone-binding globulin (SHBG) and albumin, respectively. Binding to SHBG and albumin was confirmed by removing SHBG or albumin from the serum with Concanavalin-A Sepharose 4B gel or CM-Affi Gel Blue, respectively. In the case of [3H]EqS and [3H]E1S, binding to SHBG was not detectable, and only a peak of radioactivity associated with albumin was found. However, under these conditions, the binding of estrogens to SHBG in serum from normal men was not detectable. Incubation of the above steroids with 5% HSA followed by gel filtration resulted in a single peak of radioactivity associated with the protein peak. Using ultrafiltration dialysis followed by Scatchard analysis, at least two sets of binding sites were found for the interaction of HSA with EqS or E1S. The high and low affinity binding sites had association constants k1 and k2 of approximately 0.9-1.1 (X 10(5) M-1) and 0.5-0.8 (X 10(4) M-1). In contrast with Eq and E1, only the low affinity binding sites were found (apparent Ka congruent to 1 X 10(4) M-1). The binding constants of some estrogens and androgens to SHBG at 37 C determined by competitive Scatchard analysis using DEAE filter assay and [3H]5 alpha-DHT were 0.15, 0.07, 0.22, 0.29, 2.70, and 4.53 (X 10(9) M-1) for Eq, E1, 17 beta-Eq, E2, T, and 5 alpha-DHT, respectively. These results indicate that the equine estrogens bind to SHBG and albumin in a manner similar to that of E1 and E2, and that the low MCR of EqS reported previously may be due to its binding to albumin.

Coordinate regulation of the production and signaling of retinoic acid by estrogen in the human endometrium.

To determine whether estrogen regulates retinoic acid (RA) production and signaling in the human endometrium as it does in the rodent uterus, we investigated the effects of estrogens on the expression of RA-metabolizing enzymes, retinoid receptors, and biomarker genes in the post- and premenopausal human endometrium. Real-time quantitative PCR revealed that retinaldehyde dehydrogenase (RALDH) 2, a critical enzyme in RA biosynthesis, was induced 4-fold by estrogen replacement therapy with either Premarin or a mixture of estrone and equilin sulfates for 3 months. Estrogen replacement therapy also increased the expression of the RA receptor RAR alpha 1.9-fold. In parallel, there was a marked increase in the expression of two RA-regulated genes, cellular retinoic acid-binding protein II and tissue transglutaminase. In the premenopausal endometrium, the levels of RALDH1, RALDH2, RAR alpha, and cellular retinoic acid-binding protein II were increased in the estrogen-dominated proliferative phase, and the transcripts for the RA catabolic enzyme retinoic acid 4-hydroxylase (CYP26A1) and tissue transglutaminase were significantly increased in the secretory phase. Our results suggest that estrogen coordinately up-regulates RA production and signaling in the human endometrium. This coordinate mechanism may play a role in the antiproliferative effects that counterbalance the estrogen-induced endometrial proliferation.

Metabolism of equilin sulfate in the dog.

The metabolism of equilin sulfate was determined in female dogs receiving 2.5 mg/kg of [3H]equilin sulfate alone or in a preparation that contained all the components that are present in the conjugated equine estrogen product Premarin. The pharmacokinetic parameters of total radioactivity indicated that the drug is rapidly absorbed and it has a moderate half-life in plasma. The total radioactivity in plasma following administration of [3H]equilin sulfate as part of a mixture of conjugated equine estrogens had significantly lower peak concentration (Cmax), a lower area under the curve (AUC), a longer terminal half-life (t1/2) and a longer mean residence time (MRT) than when [3H]equilin sulfate was given alone, indicating that the other components in the conjugated equine estrogen preparation altered the pharmacokinetics of equilin sulfate. An average of 26.7 +/- 4.4% of the administered radioactive dose was excreted in urine of dogs receiving [3H]equilin sulfate. Again, a significantly lower percentage (21.4 +/- 6.3%, P = 0.023) was eliminated in urine of dogs receiving [3H]equilin sulfate in the conjugated equine estrogen preparation, indicating that the absorption of equilin sulfate was perhaps altered by the other components in the conjugated equine estrogen preparation. Metabolite profiles of plasma and urine were similar. Equilin, equilenin, 17 beta-dihydroequilenin, 17 beta-dihydroequilin, 17 alpha-dihydroequilenin and 17 alpha-dihydroequilin were present in both matrices. 17 beta-Dihydroequilin and equilin were the two major chromatographic peaks in plasma samples. 17 beta-Dihydroequilenin and 17 beta-dihydroequilin were the major metabolites in urine. In conclusion, following oral administration of [3H]equilin sulfate to dogs, the radioactivity is rapidly absorbed. The disposition of equilin sulfate is altered by the other components that are present in the conjugated equine estrogen preparation Premarin. The reduction of the 17-keto group and aromatization of ring-B are the major metabolic pathways of equilin in the dog.

Investigations into the biosynthetic pathways for classical and ring B-unsaturated oestrogens in equine placental preparations and allantochorionic tissues.

In on-going studies of 'classical' and ring B-unsaturated oestrogens in equine pregnancy, the products of metabolism of [2,2,4,6,6-2H(5)]-testosterone and [16,16,17-2H(3)]-5,7-androstadiene-3 beta,17 beta-diol with equine placental subcellular preparations and allantochorionic villi have been identified. Using mixtures of unlabelled and [2H]-labelled steroid substrates has allowed the unequivocal identification of metabolites by twin-ion monitoring in gas chromatography-mass spectrometry (GC-MS). Two types of incubation were used: (i) static in vitro and (ii) dynamic in vitro. The latter involved the use of the Oxycell cartridge (Integra Bioscience Systems, St Albans, UK) whereby the tissue preparation was continuously supplied with supporting medium plus appropriate cofactors in the presence of uniform oxygenation. [2H(5)]-Testosterone was converted into [2H(4)]-oestradiol-17 beta, [2H(4)]-oestrone and [2H(3)]-6-dehydro-oestradiol-17 alpha in both placental and chorionic villi preparations, but to a greater extent in the latter, confirming the importance of the chorionic villi in oestrogen production in the horse. On the basis of GC-MS characteristics (M(+) m/z 477/482 (as O-methyl oxime-trimethyl silyl ether), evidence for 19-hydroxylation of testosterone was found in static incubations, while the presence of a 6-hydroxy-oestradiol-17 alpha was recorded in dynamic incubations (twin peaks in the mass spectrum at m/z 504/507, the molecular ion M(+)). It was not possible to determine the configuration at C-6. The formation of small, but significant, quantities of [2H(4)]-17 beta-dihydroequilin was also shown, and a biosynthetic pathway is proposed. In static incubations of placental microsomal fractions, the 17 beta-dihydro forms of both equilin and equilenin were shown to be major metabolites of [2H(3)]-5,7-androstadiene-3,17-diol. Using static incubations of chorionic villi, the deuterated substrate was converted into the 17 beta-dihydro forms of both equilin and equilenin, together with an unidentified metabolite (base peak, m/z 504/506). The isomeric 17-dihydroequilins were also obtained using the dynamic in vitro incubation of equine chorionic villi, together with the 17 beta-isomer of dihydroequilenin. Confirmation of the identity of 17 beta-dihydroequilin and 17 beta-dihydroequilenin was obtained by co-injection of the authentic unlabelled steroids with the phenolic fraction obtained from various incubations. Increases in the peak areas for the non-deuterated steroids (ions at m/z 414 (17 beta-dihydroequilin) and 412 (17 beta-dihydroequilenin) (both as bis-trimethyl silyl ether derivatives) were observed. Biosynthetic pathways for formation of the ring B-unsaturated oestrogens from 5,7-androstadiene-3 beta,17 beta-diol are proposed.

Superior and distinct antioxidant effects of selected estrogen metabolites on lipid peroxidation.

The effect of the estrogen metabolites, 4-hydroxyestrone and 17alpha-dihydroequilin (metabolites of estradiol-17beta and equilin, respectively), were examined for antioxidant effects on plasma and lipoprotein lipid peroxidation . Lipid peroxidation was evaluated by products of both fatty acid (thiobarbituric acid-reactive substances [TBARS]) and cholesterol (oxysterols) oxidation from lipoproteins or whole plasma. Although all estrogens significantly reduced lipid peroxidation, 4-hydroxyestrone was far more potent than either equilin or 17alpha-dihydroequilin in inhibiting TBARS formation in lipoproteins induced by Cu2+. Similar effects were also noted on TBARS formation in THP-l macrophages in culture. However, 17alpha-dihydroequilin (along with equilin) strongly inhibited oxysterol formation, whereas 4-hydroxyestrone was ineffective. These studies suggest that different estrogens might act preferentially on distinct lipid substrates in exhibiting antioxidant effects.

17alpha-Dihydroequilenin increases hippocampal dendritic spine density of ovariectomized rats.

The effects of estradiol and 17alpha-dihydroequilenin on the apical dendrite spine density of pyramidal cells of the CA1 region of rat hippocampus were compared. 17alpha-Dihydroequilenin was as effective as estradiol in increasing spine densities relative to controls. 17alpha-Dihydroequilenin is not uterotrophic like estradiol but does have beneficial effects on the cardiovascular system, suggesting that it may be an effective single-agent hormone replacement therapy to treat menopausal symptoms and reduce chronic disease risk in menopausal women.

Biologic effects of 17 alpha-dihydroequilin sulfate.

OBJECTIVE: To determine the independent biologic effects of 17 alpha-dihydroequilin sulfate. DESIGN: Prospective randomized study. SETTING: University of Southern California Medical Center. PATIENTS(S): Twenty-one postmenopausal women, mean age 50 +/- 2 (+/-SEM) years, and mean body mass index 27 +/- 2. INTERVENTION(S): Women were randomized to receive daily oral doses of either 1.25 mg of estrone sulfate (E1S), 0.2 mg of 17 alpha-dihydroequilin sulfate, or a combination. Three blood and urine samples were obtained before and after 30 and 90 days of treatment. RESULT(S): After 30 and 90 days of treatment, E1S alone increased sex hormone-binding globulin (SHBG) levels significantly, 19.7% +/- 6.0% and 61.3% +/- 13.0%, whereas 17 alpha-dihydroequilin sulfate reduced SHBG levels, 20.8% +/- 68% and 12.4% +/- 7.5%, respectively. Nevertheless, the combination of E1S and 17 alpha-dihydroequilin sulfate significantly increased SHBG levels, 103% +/- 27.9% and 98.2% +/- 19.1%, compared with baseline at 30 and 90 days. Fewer changes were evident with corticosteroid-binding globulin (CBG). After 90 days of treatment, CBG levels significantly increased 30.9% +/- 5.5% with E1S, decreased by 7.2% +/- 5.0% with 17 alpha-dihydroequilin sulfate, and, with the combination, significantly increased by 10.5% +/- 2.4% compared with baseline. Changes in lipids and lipoproteins were more variable. However, high-density-lipoprotein cholesterol increased significantly with E1S at 30 and 90 days compared with baseline, 96.5% +/- 39% and 91.5% +/- 22.6%, and with the combination increased 66.4% +/- 13.3% and 79.2% +/- 24.4%, respectively. Fewer changes were evident with 17 alpha-dihydroequilin sulfate alone, decreasing 4.4% +/- 22% and 2.6% +/- 21.3%. Urinary ratios of bone collagen equivalents-creatinine and calcium-creatinine decreased in all three groups. However, the combination group resulted in a significantly greater percentage decrease in bone collagen equivalents-creatinine than with E1S alone. CONCLUSIONS(S): 17 alpha-Dihydroequilin sulfate could modify some of the first-pass effects of conjugated equine estrogens and act synergistically with other conjugated equine estrogens to reduce bone resorption.

Biologic effects of equilin sulfate in postmenopausal women.

In order to determine the relative potency of equilin sulfate (EqS), a major constituent of conjugated equine estrogens, 15 women received oral doses of EqS (0.15, 0.31, and 0.625 mg) for 25 days. Doses of 0.31 and 0.625 mg significantly stimulated hepatic globulins. This stimulatory effect ranged from being 1.5 to 8 times greater than the effects of comparable doses of estrone sulfate and conjugated equine estrogens. A significant stimulation in high-density lipoprotein-cholesterol occurred with as little as 0.15 mg of EqS. Elevations in the high-density lipoprotein/low-density lipoprotein-cholesterol ratio occurred with EqS, which resulted in an approximately 4-fold greater response than that achieved with comparable doses of conjugated equine estrogens. The fasting urinary calcium/creatinine ratio was only significantly lowered with 0.625 mg of EqS and was less potent than conjugated equine estrogens in this regard. It is concluded that EqS is a potent estrogen that contributes significantly to the hepatic stimulatory effects of conjugated equine estrogens. These data also provide support for the suggestion that there may be a dissociation in potency between estrogenic effects on liver and bone.