Separation of adreno-ovarian steroids by thin-layer chromatography

The major adreno-ovarian steroid hormones (progesterone, estrone, 17α-estradiol, 17β-estradiol, estriol, corticosterone, cortisone, and cortisol) have been separated simultaneously on a single TLC plate without recourse to transfer chromatography. The plate was developed successively twice in benzene/ethanol (95:5, v/v) solvent system. It was then sprayed with rhodamine 6G and a line was drawn isolating the already separated least polar and medium-polar steroids (progesterone, estrone, 17α-estradiol, and 17β-estradiol) with the help of ultraviolet light. Then 5 ml methanol per 100 ml solvent in the tank was added and the plate again developed 2–3 times up to the line drawn, when polar steroids (corticosterone, cortisone, cortisol, and estriol) separated out.     

Changes in estrogen levels in maternal venous plasma after intra-amniotic infusion of prostaglandin F2 for therapeutic abortion

Peripheral plasma levels of estrone, estradiol-17beta and estriol were measured by the method of Shutt and Cox in 10 women following intra-amniotic infusion of prostaglandin F2alpha (PGF2a) for therapeutic abortion. Initial dose was 30 mg, followed if necessary, by doses of 15 mg at 24 hours and 42 hours. Gestational age of pregnancies ranged from 14 to 19 weeks, with a mean of 16 weeks. All 10 women completely aborted. Mean induction-abortion interval was 24 + or - 12 hours. The mean estrone, estradiol 17beta and estriol levels declined to about half of the pre-infusion levels after 80% of the induction-abortion interval had elapsed. The main decline in estrogen levels occurred in individual women either during the 1st quarter or during the last quarter of the induction-abortion interval. There were no significant relationships between changes in estrogen levels and the interval from 1st administration of PGF2a to subsequent abortion.     

Endocrinology of pregnancy in the orang-utan (Pongo pygmaeus) and its evolutionary significance

Urinary concentrations of estrone, estradiol-17Β, estriol, pregnanediol-3α-glucuronide, and chorionic gonadotrophin (CG) were measured by radio-immunoassy through five pregnancies in four multiparous orang-utans. The excretion of all three estrogen metabolites increased substantially during pregnancy. Although estrone was the major metabolite during early pregnancy, estriol excretion increased considerably, to reach 10 times the concentration of estrone at term. Estradiol-17Β was of comparatively minor importance. Maximum CG excretion occurred during the first trimester and low but constant levels were present in urine throughout the remainder of pregnancy. An early peak of pregnanediol-3α-glucuronide excretion coincided with the CG peak and then rose steadily to reach a plateau 8 weeks prepartum which was maintained until term. Urinary excretion of all five hormones decreased rapidly immediately following parturition. These data suggest that the pattern of urinary steroid and CG excretion during pregnancy in the orang-utan closely resembles that in the other great apes and women.     

The relation of maternal blood volume to plasma renin activity in the pregnant rabbit

Blood volume, estradiol 17 beta and estrone concentrations, and plasma renin activity were determined weekly in 26 chronically catheterized nonanesthetized rabbits during pregnancy and after delivery. We determined blood volume by 99technetium, and plasma volume by the microhaematocrit method. The values for whole blood volume were 52.7 (+/- 2.3) and 63 (+/- 2.2) ml X kg-1 for nonpregnant and pregnant animals, respectively. During the course of gestation plasma renin activity increased about 300%, but estradiol 17 beta and estrone concentrations did not change significantly. The increase in whole blood and plasma volumes during pregnancy correlated highly with the increase in plasma renin activity, r = 0.53 and 0.59, respectively.     

Estrogen-binding protein from rat preputial gland: purification and characterization.

Cytosol from the rat preputial gland has been shown to contain a protein which binds both estrone and estradiol. The protein, after a 26-fold purification from the cytosol of female Sprague-Dawley rats, migrated as one band during electrophoresis in sodium dodecyl sulfate on acrylamide gel. The electrophoretic mobility indicated a molecular weight of 15,000. The association constant for estrone as determined by equilibrium dialysis was 1.2 X 10(7) M-1, while that for 17beta-estradiol was 3.3 X 10(6) M-1. Progesterone, cortisol, testosterone, or diethylstilbestrol did not bind to the purified protein, whereas 17alpha-estradiol or estriol bound only slightly. In the presence of retinoic acid, but not retinol, the binding of estrone was reduced. Optimum binding for estrone was at pH 6.5 to 8.5.     

Estrogen metabolism in nonhuman primates I. In vitro biosynthesis of estrogen glucosiduronates in rhesus monkey liver

Estrone glucosiduronate, 17β-estradiol-3-glucoslduronate, 17β-estradiol-17-glucosiduronate and estriol-16α-glucoslduronate have been biosynthesized in substantial yield by incubation of radioactive estrone, 17β-estradiol, estriol and uridlne diphosphoglucosiduronic acid with rhesus monkey liver homogenates. The metabolites were characterized by chromatography on Celite and DEAE-Sephadex, enzyme hydrolysis, derivative formation and crystallization to constant specific activity. The percent conversion to 17β-estradiol-17-glucosiduronate from 17β-estradlol ranged between 56–71%; from estrone, the conversion was 49–54%. Other metabolites formed from estradiol were estrone glucosiduronate(12–21%) and 17β-estradiol-3-glucosiduronate(5–12%). The same metabolites derived from estrone accounted for 18–28% and 10–14% respectively. After estriol incubation, more than 90% of the steroid was converted to estriol-16α-glucosiduronate with no detectable estriol-3-glucosiduronate. This report represents the first time that 17β-estradiol-17-glucosiduronate has been reported as a metabolite in the rhesus monkey and this is the only known species which forms 17β-estradiol-17-glucosiduronate as the predominant metabolite of either estrone or estradiol $\text{in vitro}$.Rhesus monkey liver is similar to the human and baboon in that it metabolizes estriol exclusively to estriol-16-glucosiduronate.     

Endocrine profiles during the estrous cycle and pregnancy in the Baird's tapir (Tapirus bairdii)

Serum samples were collected 1–3 times weekly from two Baird's tapirs (Tapirus bairdii) for 6 months in 1987–1988, and for more than 3 consecutive years beginning in 1989 to characterize hormone patterns during the estrous cycle and pregnancy. Based on serum progesterone concentrations, mean (±SEM) duration of the estrous cycle (n = 20) was 30.8 ± 2.6 days (range, 25–38 days) with a luteal phase length of 18.1 ± 0.4 days (range, 15–20 days). Mean peak serum progesterone concentrations during the luteal phase were 1.35 ± 0.16 ng/ml, and nadir concentrations were 0.19 ± 0.03 ng/ml during the interluteal period. Distinct surges of estradiol preceded luteal phase progesterone increases in most (14/20) cycles. Gestation length was 392 ± 4 days for three complete pregnancies. Mean serum progesterone concentrations increased throughout gestation and were 1.83 ± 0.13, 2.73 ± 0.13, and 4.30 ± 0.16 ng/ml during early, mid- and late gestation, respectively. Serum estradiol concentrations began to rise during mid-gestation, increasing dramatically during the last week of pregnancy. Patterns of serum estriol and estrone secretion during pregnancy were similar to that observed for estradiol. In contrast to progesterone and estrogens, serum cortisol concentrations were unchanged during pregnancy or parturition. Females resumed cycling 16.2 ± 2.0 days after parturition (n = 4) and, on two occasions, females became pregnant during the first postpartum estrus. These data suggest that the tapir cycles at approximately monthly intervals and that increases in serum progesterone are indicative of luteal activity. The interluteal period is relatively long, comprising approximately 40% of the estrous cycle. During gestation, progesterone concentrations are increased above luteal phase levels, and there is evidence of increased estrogen production during late gestation. The absence of increased cortisol secretion at the end of gestation suggests that this steroid does not play a major role in initiating parturition in this species. © 1994 Wiley-Liss, Inc.     

Competitive protein-binding assay of estrone, estradiol-17 or estradiol-17 in human or ruminant plasma

A procedure for the assay of estrone, estradiol-17β or estradiol-17α in plasma is described. The technique also appears applicable to the assay of estriol in plasma. The procedure uses a semi-automatic extraction of plasma, rapid micro-alumina column chromatography and competitive binding of the estrogens to stable proteins of sheep uterine cytosol. The use of alumina column chromatography results in consistently low blanks. The assay has been evaluated for the measurement of estradiol-17β and estrone in human and sheep plasma, and for estradiol-17α and estrone in goat plasma. The change in binding affinity of estradiol-17α relative to estradiol-17β when incubated in sheep uterine cytosol at two different temperatures (25°C and 4°C), makes it possible to differentiate the two epimers of estradiol. Measurement of estradiol-17β down to 10 pg and of estrone and estradiol-17α to 25 pg are maintained in routine analyses. The specificity of the procedure was thoroughly checked by various methods, including comparison with spectrophotofluorimetric analysis.     

Blood production rates of estrogens in women with differing ratios of urinary estrogen conjugates.

On the basis of the ratios of the estrogen conjugates in their urine (estriol/estrone + estradiol: E3/[E1+E2]), 19 women were divided into two groups: 9 women had ratios less than 0.6 and 10 women had ratios greater than 1.3. All women had measurements made of endogenous estrogens in their plasma by radioimmunoassay. They were then given constant infusions of 3H-estrone, 3H-estradiol and 14C-estriol during days 5-7 and days 20-22 of their cycles, and metabolic clearance rates (MCR) and blood production rates (PB) of estrone, estradiol and estriol were determined. Despite the wide disparity in their ratios of urinary estrogens, no differences could be found between the groups for the MCR's and PB's for all estrogens at either time of the cycle. The mean ratios of PB's (PB3/[PB2+PB1]) of estrone, estradiol and estriol ranged from 0.07 to 0.10 for each group during the cycle. The amounts of estriol entering the blood are small compared to the amounts of estrone and estradiol and do not correlate with the ratios of their urinary conjugates.     

In vitro metabolism of (6,7-H3)estrone and of (6,7-H3) estradiol by the liver in pregnant guinea pigs]

Slices of pregnant guinea pig liver were incubated with (6,7-3H)estrone and with (6,7-3H)estradiol. Free, glucuro- and sulfo-conjugated fractions were isolated by specific extraction and hydrolysis. The radioactivity distribution in these 3 fractions demonstrated a predominance of conjugated compounds (95% of isolated estrogens) with slightly more glucuro-conjugated than sulfo-conjugated compounds. After isolating estrogens by TLC, we were able to determine estrone and estradiol in these 3 fractions from incubations with 3H-estrone or with 3H-estradiol by means of specific activity recrystallisation. Estriol was determined in glucuro-and sulfo-conjugated fractions after incubation with 3H-estrone as well as in sulfo-conjugated fraction after incubation with 3H-estradiol. Glucuro- or sulfo-conjugated estrone was the predominant estrogen after incubation with 3H-estrone just as after incubation with 3H-estradiol. This led us to conclude to an important 17beta-hydroxysteroid-dehydrogenase activity. The 16alpha-hydroxylastic-activity is weaker since estriol represented only 1,43 % of estrogens isolated after incubation with 3H-estrone and 0.82% after incubation with 3H-estradiol.     

Characterization of human fetal cord blood steroid profiles in relation to fetal sex and mode of delivery using temperature-dependent inclusion chromatography and principal component analysis (PCA)

In the present work, human male and female fetal cord blood samples were purified, selectively extracted and separated to examine a fraction of steroids ranging from polar estetrol to relatively non-polar progesterone using solid phase extraction based on C-18 tubes and beta-cyclodextrin driven temperature dependent inclusion chromatography. Resulting UV diode array chromatographic patterns revealed the presence of 27 peaks. Chromatographic patterns of UV detected steroids were analyzed using principal components analysis which revealed differences between male/female and labour/not-in-labour clusters. Quantitative analysis of nine identified steroids including: estetrol, 17beta-estradiol, estrone, estriol, cortisol, cortisone, progesterone, 20 alpha-hydroxyprogesterone and 17 alpha-hydroxyprogesterone were not significantly different between males and females. Significant differences between male and female fetuses were related to as yet unidentified compounds. Four peaks were significantly different with labour which corresponded with cortisol, cortisone and two unidentified compounds. This protocol may distinguish significant differences between clinical groups that are not readily identifiable using univariate measurements of single steroids or different low molecular mass biomarkers. Moreover, we have provided new evidence that despite the absence of testosterone there are number of steroids and low molecular mass compounds that differ between male and female fetuses.     

A sensitive and specific enzymeimmunoassay for serum testosterone.

A very sensitive enzymeimmunoassay for testosterone was developed using testosterone-penicillinase conjugate and an antibody to testosterone-3-(O-carboxymethyl)oxime-bovine serum albumin. The specificity of the assay was demonstrated by the fact that estradiol-17 beta, estrone, estriol, progesterone, 17 alpha-hydroxy-progesterone, dehydroepiandrosterone, androstenedione, cortisol and cortisone were ineffective in crossreacting with testosterone while dihydrotestosterone was 8 times less crossreactive as compared to testosterone. The minimum detectable amount of testosterone was 10-15 pg per assay tube. Intra-assay and inter-assay coefficients of variation for samples containing 0.3-6ng/ml of testosterone were 6-8% and 8-10%, respectively. A high degree of correlation (r = 0.97) was observed between serum testosterone values obtained by enzymeimmunoassay and radioimmunoassay. The levels of testosterone in the sera of normal men and women and those in hypogonadal males following stimulation with human chorionic gonadotropin determined by this enzymeimmunoassay appear similar to those reported by other investigators.     

A rapid specific radioimmunoassay for unconjugated estriol in plasma.

A rapid, non-chromatographic radioimmunossaay for unconjugated estriol in pregnancy plasma has been developed which utilizes a commonly available antiestrogen antisera. Estradiol-17beta and estrone demonstrate 135% relative cross-reactivity with our antiserum, as compared with 100% for estriol. Specificity is achieved by purification of estriol with solvent partitioning using benzene: petroleum ether (1:1). The results obtained using this method are similar to a radioimmunoassay utilizing a highly specific, but commercially unavailable, antiestriol antiserum. The method is precise, with coefficients of variation ranging from 3.0 to 8.2%.     

Regulation of human placental progesterone synthesis in vitro by naturally occurring steroids

A regulatory model of human placental progesterone synthesis is based on studies with isolated placental enzymes. Steroids causing a dose-dependent inhibition are listed in the standing order of their inhibitory potency (I50 (microM)/Ki value (microM)/type of inhibition: c = competitive and nc = non competitive). Cholesterol side chain cleavage enzyme (mitochondria): Mainly regulated by hydroxylated cholesterol derivates. No inhibition was observed by cholesterylesters and by other naturally occurring steroids tested. 5-ene-3 beta-hydroxysteroid dehydrogenase-isomerase (mitochondria): 6 beta-hydroxyprogesterone (nc), dehydroepiandrosterone (0.32/0.82/c), 20 alpha-dihydroprogesterone (0.38/-/nc), progesterone (0.46/-), estrone (0.56/0.1/c), estradiol (0.1/0.8/c), 17 alpha-hydroxyprogesterone (2.1/-/nc), 17 alpha-hydroxypregnenolone (0.4/-/c), dehydroepiandrosterone sulfate (2.5/-/c), cortisone (5.0/-), cortisol (100/-). 20 alpha-hydroxysteroid dehydrogenase (cytoplasmic): estrone (0.26/0.7/c), estradiol (0.28/0.9/c), pregnenolone (4.4/9.2/c), 5 alpha-pregnan-3 beta-ol-20-one (4.6/-/nc), estriol (5.1/11.5/c); dehydroepiandrosterone (7.2/14.0/c), 5 alpha-dihydrotestosterone (26.0/-/nc), progesterone (33.0/48.0/c), dehydroepiandrosterone sulfate (50.0/23.0/nc), and testosterone (59.0/63.0/c). An autoregulatory mechanism of placental progesterone synthesis is postulated which is in good agreement with data published by others proving that placental progesterone synthesis is independent of the endocrine organs of the mother and the fetus.     

Estrogen determination using liquid chromatography with precolumn fluorescence labeling

A liquid chromatography procedure is described for the determination of some estrogens using fluorescence detection. The estrogens are labeled by precolumn derivatization with 5-dimethylaminonaphthalene-1-sulfonylchloride (dansyl chloride) and chromatographed on a reversed-phase, C-18 column with a mobile phase consisting of methanol, water, and acetic acid. The eluted analytes are measured with a fluorescence detector using excitation and emission wavelengths of 350 and 540 nm, respectively. The chief advantage of this new procedure is its sensitivity, requiring smaller amounts of sample to detect and quantitate estrogens in biological materials. We could detect less than 400 pg of estriol. With our procedure, this corresponded to about 25 ng in the final reaction mixture, before derivatization. The use of smaller sample volumes could improve this limit. Linearity for dansylated estriol, estrone, and estradiol was excellent over the estrogen range below 100 μg in the sample. This corresponds to approximately 1.7 μg on the column. Within-run precision was better than 5% for the full extraction and derivatization procedure for estriol from pregnancy urine samples. Chromatography is complete within 10 min for dansylated estriol, estrone, and estradiol.     

Biotransformation and bioconcentration of steroid estrogens by Chlorella vulgaris

The biotransformation and bioconcentration of natural and synthetic steroid estrogens by Chlorella vulgaris were investigated by using batch-shaking experiments with incubation for 48 h in the light or dark. Estradiol and estrone were interconvertible in both light and dark conditions; however, this biotransformation showed a preference for estrone. In the light, 50% estradiol was further metabolized to an unknown product. Apart from biotransformation, estrone, as well as hydroxyestrone, estriol, and ethinylestradiol, was relatively stable in the algal culture, whereas estradiol valerate was hydrolyzed to estradiol and then to estrone within 3 h of incubation. All of the tested estrogens exhibited a degree of partitioning to C. vulgaris; however, the concentrations of estriol, hydroxyestrone, ethinylestradiol, and estradiol valerate were always below the quantification limits. For estradiol and estrone, the partitioning of these estrogens in the algal extracts to the filtrates was <6% of the total amount present. The average concentration factor for estrone was ca. 27; however, the concentration factor for estradiol was not reported since no equilibrium was reached between the aqueous solution and that within the cells due to continuing biotransformation.     

Biotransformation and Bioconcentration of Steroid Estrogens by Chlorella vulgaris

The biotransformation and bioconcentration of natural and synthetic steroid estrogens by Chlorella vulgaris were investigated by using batch-shaking experiments with incubation for 48 h in the light or dark. Estradiol and estrone were interconvertible in both light and dark conditions; however, this biotransformation showed a preference for estrone. In the light, 50% estradiol was further metabolized to an unknown product. Apart from biotransformation, estrone, as well as hydroxyestrone, estriol, and ethinylestradiol, was relatively stable in the algal culture, whereas estradiol valerate was hydrolyzed to estradiol and then to estrone within 3 h of incubation. All of the tested estrogens exhibited a degree of partitioning to C. vulgaris; however, the concentrations of estriol, hydroxyestrone, ethinylestradiol, and estradiol valerate were always below the quantification limits. For estradiol and estrone, the partitioning of these estrogens in the algal extracts to the filtrates was <6% of the total amount present. The average concentration factor for estrone was ca. 27; however, the concentration factor for estradiol was not reported since no equilibrium was reached between the aqueous solution and that within the cells due to continuing biotransformation.     

Subcellular distribution and selectivity of the protein-binding component of the recognition system for sex-hormone-binding protein-estradiol complex in human decidual endometrium

In order to assess the subcellular distribution of the protein-binding component of the recognition system for sex-hormone-binding protein-estradiol complex (Strel'chyonok, O.A., Avvakumov, G.V. and Survilo, L.I. (1984) Biochim. Biophys. Acta 802, 459-466), plasma membranes and other subcellular fractions were prepared from homogenate of human decidual endometrium (8-12 weeks of pregnancy). Specific binding of 125I-labeled sex-hormone-binding protein complexed with estradiol was found preferentially in the plasma membrane fraction. The protein-binding component of the recognition system was found to specifically bind sex-hormone-binding protein complexed with estrogens (estradiol, estriol, estrone, with close affinities) but not with androgens (testosterone and 5 alpha-dihydrotestosterone). Specific membrane binding of 125I-labeled sex-hormone-binding protein complexed with 17 alpha-pregna-2,4-dien-20-yn-[2,3-d]isoxazol-17-ol (danazol) was also detected. This allowed us to suggest a putative mechanism for the danazol pharmacological action on endometrium which involves the interaction of the steroid-protein complex with the plasma membrane of endometrial cells. It is proposed that sex-hormone-binding protein takes part in the guided transport of steroids into endometrial cells.     

Monitoring ovarian function in marmosets and tamarins by the measurement of urinary estrogen metabolites

Practical aspects of urinary estrogen analysis were considered with regard to establishing simple and reliable methods for monitoring ovarian function in marmosets and tamarins. Changes in the hormone:creatinine ratio in small volumes of urine from the common marmoset were significantly correlated with changes in 24-h excretion. Comparison of the metabolism and excretion of estrogens during the ovarian cycle in the common marmoset and cottontop tamarin revealed interesting species differences. High concentrations of conjugated estrone were measured in marmoset plasma, but estradiol 17β was the predominant estrogen in urine. In contrast, estrone was the most abundant estrogen measured in tamarin urine. Both species excreted very little estriol. Sulfates and glucuronides were present in urine in similar proportions before ovulation in the marmoset, although after ovulation sulfates were the more abundant. Conversely, most of the estrogens in tamarin urine appeared to be conjugated as glucuronides. Direct assay for estrone sulfate was applied to the measurement of urinary estrogen excretion during the ovarian cycle in a marmoset. The results compared well with those for total estradiol 17β after hydrolysis and ether extraction. The use of direct assays for conjugated estrogens in small volumes of urine is suggested as a practical method for monitoring ovarian function in marmosets and tamarins.     

Modulation of quail oviduct adenylate cyclase activity by estradiol and progesterone

Oviduct adenylate cyclase activity of the quail was measured by radiochemical analysis following different hormonal treatments. A single injection of estradiol benzoate (EB) to immature female quails resulted in a prereplicative surge of adenylate cyclase activity. A second surge of enzyme activity was observed during the proliferative phase induced by EB. Estradiol-17 alpha, estrone, estriol and testosterone were ineffective. Tamoxifen completely inhibits the growth-promoting effect of EB and the second surge of adenylate cyclase activity but does not inhibit the prereplicative increase of enzyme activity. This prereplicative increase of adenylate cyclase activity was also observed, even in the absence of increased plasma estradiol, when estradiol-17 beta (E2) was perfused through the hepatic portal vein. Moreover, E2 had no effect on enzyme activity when added directly to the oviduct homogenate preparation, at concentrations ranging from 10(-9) to 10(-7) M. In response to progesterone injection, oviduct adenylate cyclase activity followed a different pattern, beginning its increase after 3 h and remaining elevated up to 24 h. The activation by estradiol was independent of the presence of guanylylimidodiphosphate. Moreover, the enzyme was more sensitive to forskolin at submaximal concentration in estradiol treated birds than in control. These results demonstrate that transient activation of adenylate cyclase at the early stages of the action of estradiol does not occur through the classic nuclear receptor-gene activation pathway or a membrane receptor mediated process, but involves an indirect pathway, yet to be defined.