Specificity of inhibition by steroids of porcine oocyte maturation in vitro.

In order to examine the influence of several steroids on the process of oocyte maturation, denuded (adherent cumulus granulosa cells mechanically removed) and intact (cumulus granulosa cells left attached) porcine oocytes were cultured in the presence or absence of estradiol-17 beta, estradiol-17 alpha, testosterone, cortisol, progesterone, or the nonsteroidal estrogen diethyl stilbestrol (all at 10 microgram/ml) in defined medium that contained either BSA or dextran. Estradiol-17 beta was the only steroid to exert a significant inhibitory effect on the maturation of denuded oocytes, and did so only in BSA supplemented medium. The inhibition was reversible in that oocytes, cultured in steroid-free medium after initial culture in estradiol-17 beta medium, resumed meiotic maturation. Oocytes took up 3H-estradiol-17 beta in both media, although less radiolabel entered oocytes in BSA supplemented medium. The majority of label in the oocytes, when cultured with either medium, was not displaced by excess radioinert estradiol-17 beta or progesterone, nor were the oocytes saturated even when cultured in 10(-6) M estradiol-17 beta. Autoradiography of sectioned oocytes after culture in 3H-estradiol-17 beta has shown that there was no selective accumulation of silver grains over the germinal vesicle as was the case with granulosa cell nuclei. This observation suggests that estradiol-17 beta may not act at the level of the oocyte nucleus.     

Effects of interaction between estradiol-17 beta and progesterone on the proliferation of cloned breast tumor cells (MCF-7 and T47D)

We have previously reported that the proliferation of cloned MCF-7 and T47D human mammary tumor cells can be inhibited by increasing concentrations of charcoal-dextran stripped female human serum (CDFHS). The maximal proliferation rate was restored by the addition of 3 X 10(-11) M estradiol-17 beta to the culture media. These observations suggest that the proliferation of T47D and MCF-7 cells is regulated by a blood-borne inhibitor whose effects are neutralized by estrogens. In the present report we explore the possibility that progesterone alters the estrogenic response. MCF-7 cells were grown in DME containing 2-40% CDFHS. Progesterone, at 3 X 10(-7) M to 3 X 10(-12) M, had no effect on the yield of MCF-7 or T47D cells that were cultured in the presence or absence of estradiol-17 beta.     

Formation of glucuronides of estradiol-17 beta by human mammary cancer cells

The formation of glucuronides of estradiol-17 beta by human mammary cancer cell lines is reported for the first time. When incubated with [3H]estradiol-17 beta (1 nM) for 16 h, ZR-75-1 and T47-D cells formed estradiol-3-glucuronide and estradiol-17 beta-glucuronide in approximately equal proportions, whereas MCF-7 cells formed E2-3-glucuronide only. Yields of monoglucuronides from MCF-7 and ZR-75-1 cells were 0.35 pmol/mg DNA, which represented 20-26% of the yield of estradiol-monosulphates. A HPLC system capable of separating most estradiol monosulphates, monoglucuronides and mixed conjugates, is described.     

In vitro aromatic bioactivation of the weak estrogen E(2)alpha and genesis of DNA adducts

Specific A-ring hydroxylated metabolites of 17beta-estrogens are known to be endogenous pro-carcinogens, more particularly the 4-hydroxylated forms of estrogens produced by cytochrome P4501B1. In this study, we investigated whether estradiol-17alpha, the main hepatic residue of estradiol-17beta in cattle treated for anabolic purposes with estradiol containing implants, could be significantly metabolized by human cells, and whether its aromatic metabolites could induce the formation of DNA adducts as estradiol-17beta and estrone do. First, using a human kidney adenocarcinoma cell line, which expresses specifically the cytochrome P4501B1, we showed that estradiol-17alpha is bioactivated into a mixture of 2- and 4-catechol estrogens leading to the corresponding methoxyestrogens unambiguously identified by LC-APCI-MS/MS. We then demonstrated that the 2- and 4-hydroxylated derivatives of estradiol-17alpha incubated under oxidative conditions with calf thymus DNA gave stable DNA adducts and abasic sites, respectively. From these results, we can consider that human cells expressing CYP1B1-dependent hydroxylation activities metabolize estradiol-17alpha at the same magnitude as estradiol-17beta and estrone, and that in oxidative conditions, the resulting aromatic metabolites can lead to the formation of both stable and unstable DNA adducts.     

Cross-resistance of transformed mouse cells to some drugs.

The Colcemid-resistant L--53 cell strain was examined for cross-resistance to metaphase inhibotors (Vincristine, Vinblastine, estradiol-17beta), an antitumor antibiotic (Rubomycin C) and an alkylating agent (Lycurim), compared with the Colcemid-sensitive L cells. The L-53 cells proved to be resistant besides colchicine to Vincristine, Vinblastine and estradiol-17beta concerning their antimitotic effect. The comparison of the viability of L and L-53 cells in the presence of Rubomycin C and Lycurim showed a resistance of the L-53 cells to Rubomycin C, while the effect of Lycurim was the same on both cell lines. The chromosome-mutagenic action of Lycurim was also equal on both cell lines.     

Liver parenchymal cell proliferation during secondary induction with estradiol-17 beta in Xenopus

We have previously demonstrated that injection of adult male frogs with estradiol-17 beta causes extensive proliferation of liver parenchymal cells together with the induction of vitellogenin (R. J. Spolski, W. Schneider, and L. J. Wangh (1985) Dev. Biol. 108, 332-340). In addition, purified parenchymal cells placed in culture synthesize DNA in an estrogen-dependent manner (B. S. Aprison, L. Martin-Morris, R. J. Spolski, and L. J. Wangh (1986) In Vitro 22, 457-464). We now describe conditions under which secondary exposure to estradiol-17 beta, either in vivo or in vitro, can lead to further DNA synthesis and cell division. The extent of this proliferation depends upon both the magnitude of the primary dose and the length of time elapse before secondary stimulation. A hormone dose of 0.5 mg, which causes little cell proliferation initially, allows for maximal secondary proliferation in response to 2.0 mg, while a maximal primary dose of 2.0 mg substantially inhibits further division in response to a secondary treatment with the same hormone dose. Cell culture experiments demonstrate that the failure of liver cells, in maximally stimulated males, to synthesize DNA in response to estrogen is not irreversible. But, cell crowding in culture does restrict DNA synthesis. The restrictions seen in vivo may therefore be due to structural features of the intact tissue rather than to terminal differentiation at the genetic level. These results are discussed with regard to our understanding of hormone-dependent differentiation in the frog liver system.     

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.     

The effect of estradiol-17 beta and actinomycin D on the release of PGF and PGE from separated cells of human endometrium

Estradiol-17 beta selectively stimulated the release of PGF from separated glandular but not stromal cells of human secretory endometrium (p less than 0.025) but had no effect on PGF release from either type of cells obtained from proliferative endometrium. PGE release was not affected by estradiol-17 beta. Actinomycin D did not antagonise the effect of estradiol-17 beta on PGF release from secretory, glandular cells. Basal release of PGF from these cells was stimulated by actinomycin D alone (100 ng/ml) (p less than 0.025) and PGE release stimulated in the presence of estradiol-17 beta. Actinomycin D had no effect on PGF or PGE release from proliferative endometrium. These findings suggest that estradiol-17 beta stimulates PGF release by a mechanism that does not affect PGE release and which is not dependent on the synthesis of new protein. The basal release of PGF and PGE by glandular cells of secretory endometrium in vitro is regulated by protein/proteins which reduce PG release.     

Estrogenic effect of tamoxifen and its derivatives on the proliferation of MCF7 human breast tumor cells

Cloned human MCF-7 breast tumor cells were prevented from proliferating when grown in charcoal-dextran stripped human female serum (CDFHS)-supplemented media (40% and 10%); this inhibition was maximally cancelled by estradiol-17, cisTamoxifen, and Metabolite E, whereas Tamoxifen, N-desmethylTamoxifen and Metabolite Y only partially blocked the inhibitory effect of CDFHS. The efficiency of this reversing effect was estradiol-17 greater than Metabolite E greater than cisTAM greater than OHTAM greater than TAM = Metabolite Y. CDFHS at 2% allowed for near maximal cell yield; estradiol-17 at concentrations above 3 X 10(-10) M inhibited cell proliferation whereas at lower concentrations was ineffective. All the triphenylethylenes tested at 2% CDFHS were toxic above 3 X 10(-7) M; beyond these concentrations, these drugs did not significantly affect the cell yield. The proliferative properties of E2 and these triphenylethylenes do not directly correlate with their binding affinities to the intracellular estrophilins. Finally, the control of the proliferation of C7MCF7-173 cells appears to be affected by the interaction among a) estradiol-17 or the triphenylethylenes, b) a specific blood-borne inhibitor of the proliferation of estrogen-sensitive cells (estrocolyones), and c) an inhibitor "receptor"-like structure in these target cells.     

Evidence of an EGF/TGE-alpha--independent pathway for estrogen-regulated cell proliferation

To elucidate the relationship between epidermal growth factor (EGF)/transforming growth factor (TGF-alpha) and estradiol-17 beta (E) in cell proliferation, we examined their effects on the breast cancer cell line, CAMA-1. While E was able to consistently induce cell proliferation under a variety of experimental conditions, EGF/TGF-alpha was without effect. Despite the presence of the receptor (EGFR) gene, mature EGFR protein and mRNA were not detected by radioreceptor assay, 35S Met-labelling, and the Intron Differential RNA/PCR method under conditions in which cells remain responsive to E. Furthermore, TGF-alpha is not an autocrine factor in CAMA-1 cells. We demonstrated unequivocally that EGF/TGF-alpha interaction with EGFR is not an obligatory event in mediating estrogen-stimulated cell proliferation.     

Responses of lysosomes in the digestive cells of the common mussel,Mytilus edulis,to sex steroids and cortisol

Estradiol-17beta and progesterone at physiological concentrations in vivo induced a reduction in lysosomal stability in the digestive cells of Mytilus edulis. Estradiol-17beta (10(-8) M) also reduced lysosomal stability within 15 min in vitro. Lysosomal stability was determined cytochemically as the labilisation period for latent N-acetyl-beta-hexosaminidase and this was shown to be inversely related to microdensitometric measurements of staining intensity for this enzyme. Estradiol-17beta did not appear to induce complete labilisation or cytochemical activation of lysosomal hexosaminidase and a second, much longer labilisation period could be determined for this hormone. The effects of estradiol-17beta were partially counteracted by cortisol (10(-2) M). There was an increase in PAS staining of secondary lysosomes and an increase in alcian blue staining of residual bodies in digestive cells of animals exposed to estradiol-17beta, while no changes could be observed in basophil cells. The significance of these results is discussed in terms of the physiological role of digestive cells and their possible function as target cells for estradiol-17beta and progesterone.     

Effects of sex steroid hormones on differentiation of adipose precursor cells in primary culture

The effects of estradiol-17 beta and progesterone on multiplication, differentiation and lipid filling of adipose precursor cells were examined in primary cell cultures of cells prepared from adipose tissue of both male and ovariectomized female rats. Progesterone down to a concentration of 10(-7) mol/liter, alone or in the presence of estradiol-17 beta stimulated the development of glycerophosphate dehydrogenase and lipoprotein lipase activity. Estradiol-17 beta alone had no effects. These effects were essentially parallel to increases in the rate of lipid filling of the cells. Furthermore, the formation of cells with a lipid vacuole greater than 20 micron was markedly stimulated, suggesting that new fat cells were formed by the stimulation of differentiation of the adipose precursor cells. No effects of the sex steroid hormones were seen on the rate of multiplication. These results suggest a role of sex steroid hormones in the regulation of triglyceride storage capacity in adipose tissue by facilitating the differentiation of precursor cells to form new adipocytes.     

Estrogens augment the stimulation of ovarian aromatase activity by follicle-stimulating hormone in cultured rat granulosa cells

The effects of estrogens on ovarian aromatase activity were investigated in vitro using granulosa cells from immature hypophysectomized estrogen-primed rats. The cells were cultured for 3 days in an androgen-free medium in the presence of follicle-stimulating hormone (FSH), with or without the specified estrogen. After washing, the cells were reincubated for 5 h with 10(-7) M androstenedione, and the formation of estrogens was measured. Estrogen production by control and diethylstilbestrol-treated cells was negligible, while FSH stimulated aromatase activity. Furthermore, concomitant treatment with diethylstilbestrol led to dose-dependent increases in the FSH-induced aromatase activity with an ED50 value of 4 X 10(-9) M and an apparent Vmax value 12- to 16-fold higher than those induced by FSH alone. The direct stimulatory effect of estrogens was time-dependent and was not accounted for by increases in cell protein. Various native and synthetic estrogens also augmented the FSH induction of aromatases (native estrogens: estradiol-17 beta = estrone greater than estradiol-17 alpha greater than estriol; synthetic estrogens: hexestrol greater than moxestrol greater than ethinyl estradiol much greater than chlorotrianisene and mestranol). The effect of estradiol-17 beta was dose-dependent with an ED50 value of 9 X 10(-9) M, which is within the physiological levels of follicular estradiol-17 beta. Although treatment with androgens also enhanced the FSH-induced aromatases, treatment with a progestin (R5020) or a mineralocorticoid (aldosterone) was without effect. Thus, estrogens directly augment the stimulation of granulosa cell aromatase activity by FSH. Follicular estrogens may activate intraovarian autoregulatory positive feedback mechanisms to enhance their own production, resulting in selective follicle maturation and the preovulatory estrogen surge.     

Secretion of 17 alpha-hydroxyprogesterone, androstenedione, and estrogens by porcine granulosa and theca interna cells in culture

The steroid secreting activities of dispersed granulosa and theca interna cells from preovulatory follicles of prepubertal gilts 72 h after pregnant mare's serum gonadotropin treatment (750 IU) were compared. The cells were cultured for 24 h with or without steroid substrate (10(-8) to 10(-5) M progesterone, 17 alpha-hydroxyprogesterone, or androstenedione), FSH (100 ng/mL), LH (100 ng/mL), and cyanoketone (0.25 microM, an inhibitor of 3 beta-hydroxysteroid dehydrogenase). Granulosa cells cultured alone secreted mainly progesterone. Theca interna cells secreted mainly 17 alpha-hydroxyprogesterone and androstenedione, with secretion being markedly enhanced by LH. In the presence of cyanoketone, which inhibited endogenous progesterone production, theca interna but not granulosa cells were able to convert exogenous progesterone to 17 alpha-hydroxyprogesterone and androstenedione, and exogenous 17 alpha-hydroxyprogesterone to androstenedione and estradiol-17 beta in high yield. The secretion of the latter steroids from exogenous substrates was unaffected by LH. Theca interna cells secreted more estradiol-17 beta than did granulosa cells in the absence of aromatizable substrate, but estradiol-17 beta secretion by the latter was markedly increased after the addition of androstenedione. These apparent differences in steroid secreting activity between the cell types suggest that the enzymes responsible for conversion of C21 to C19 steroids, i.e., 17 alpha-hydroxylase and C17,20-lyase, reside principally in the theca interna cells. However, aromatase activity appears to be much higher in granulosa cells.     

Steroid metabolism in human teratocarcinoma cell line PA 1

Human ovarian teratocarcinoma cells of line PA 1, (Zeuthen et al., 1979[1]) used as model for early embryonic cells, were analyzed for their in vitro capacity to convert steroids. The cells were incubated for 20 h with radioactive pregnenolone, progesterone, dehydroepiandrosterone, androstenedione, testosterone or estradiol-17 beta, or with non-radioactive progesterone, 6 alpha- or 6 beta-hydroxyprogesterone, 3 beta-hydroxy-5 alpha-pregnan-20-one, dehydroepiandrosterone or estradiol-17 beta. The metabolites were analyzed by thin layer chromatography or studied by gas chromatography-mass spectrometry. The results indicate that PA 1 cells are able to metabolize, although to a restricted amount, a variety of steroids, most markedly progesterone. The metabolites were almost exclusively found in the medium. The main metabolite of progesterone was 3 beta, 6 alpha-dihydroxy-5 alpha-pregnan-20-one. Minor formation of progesterone from pregnenolone could be detected. Human chorionic gonadotropin did not have any effect on pregnenolone metabolism. No formation of estradiol-17 beta or estrone from dehydroepiandrosterone, androstenedione or testosterone could be detected. However, estradiol-17 beta was shown to be converted mainly to estrone. These findings indicate that undifferentiated PA 1 teratocarcinoma cells like certain mouse teratocarcinoma cells, seem not to be steroidogenic but are capable of metabolizing naturally occurring steroid hormones and their precursors.     

Estrogen receptors and growth response in cultured human periodontal ligament cells

The periodontal ligament (PDL) is a connective tissue involved in the remodeling process associated with tooth development and positioning. PDL cells grown in culture were analyzed for the capacity to specifically bind steroid hormones and for growth response to estradiol-17 beta. Using [3H]estradiol-17 beta as the ligand, PDL cells in first passage cultures exhibited a specific estrogen binding capacity of 881 fmol/mg cell protein. With [3H]dexamethasone as a ligand, the binding capacity of the glucocorticoid receptor was 143 fmol/mg protein. With [3H]R5020 as a ligand, the progestin receptor exhibited a binding capacity of 5 pmol/mg protein. Scatchard analysis of estradiol binding at 37 degrees revealed a dissociation constant of 2.7 X 10(-9) M, representative of the estrogen receptor. The addition of estradiol-17 beta at concentrations of 10(-9) and 10(-8) M to culture media induced a dose-dependent decrease in growth (DNA content) to 62% and 38% control values, respectively. The addition of the antiestrogens tamoxifen and 4-hydroxytamoxifen at concentrations of 10(-7) and 10(-6) M similarly depressed cell growth. These results show that PDL cells contain high affinity receptors for several steroid hormones and further that these cells are targets for the action of estrogens.     

A double antibody radioimmunoassay for free and conjugated estradiol-17 beta in cow's milk

A radioimmunoassay for free estradiol-17 beta, conjugated estradiol-17 beta or total (free + conjugated) estradiol-17 beta in defatted milk of cows is described. Conjugated estradiol-17 beta was hydrolyzed by enzymes of Helix pomatia juice. Estrogens were extracted with dichloromethane; no other purification step was required before radioimmunoassay because of the high specificity of the antiserum. Immunoprecipitation was used to separate bound and free estradiol-17 beta. Concentrations measured were corrected for procedural losses on a per sample basis. The assays were shown to be accurate and specific. The sensitivity was 1.3pg/ml for the assay of free estradiol-17 beta (5ml of milk extracted) and 2.9pg/ml for conjugated or total estradiol-17 beta (2 ml of milk hydrolyzed and extracted). Estrogens were measured in the milk of cyclic cows and in cows stimulated with pregnant mare serum gonadotropin (PMSG). A preovulatory increase was clearly observed. Wether or not the ovary was stimulated by PMSG, concentrations of estrogens were higher and the relative increase during the preovulatory peak was greater for conjugated estradiol-17 beta than for the free form. The assay of conjugated or total estradiol-17 beta in defatted milk should be a practical method for assessing preovulatory growth of follicles in cows.     

Ultrastructural changes in guinea pig endometrial cells during the estrous cycle.

In the guinea pig, the estrous cycle is characterized by a constant measurable level of plasma progesterone with two peaks: the first one associated with the peak of plasma estradiol-17 beta occurring at proestrus and the second, during diestrus, more pronounced at the time at which the level of estradiol-17 beta is undetectable. The progesterone receptor content is the highest on day 1 and the lowest on day 10 of the estrous cycle, which lasts 16.3 +/- 1.5 days (n = 37; mean +/- SD). There is a positive correlation between the plasma level of estradiol-17 beta and the progesterone receptors detected immunocytochemically in both endometrial epithelial and stromal cells. The general morphology of the endometrium during proestrus and estrus is consistent with an estrogenic stimulation, i.e., a smooth and regular surface of the endometrium and the presence of numerous microvilli on the cell surface. However, a moderate secretory activity also occurs in proestrus and estrus. During postestrus, the glandular cells display an increase in characteristic secretory features which parallels the rise of progesterone in the plasma.     

Establishment and characterization of human uterine poorly differentiated adenocarcinoma cell line (HHUABM)

The cell line designated HHUABM was established from the metastatic region (left Bartholin gland) of human endometrial adenocarcinoma. The cell line grew well, multilayering rapidly without contact inhibition, and 72 serial passages were successively done within 25 months. The cultured cells of HHUABM line were round and spindle in shape, and showed a pavement-like arrangement. The distribution of chromosome number varied narrowly at the diploid range, and the modal chromosome number was 46. The 90% of metaphase cells showed normal karyotype. The HHUABM cells were transplanted easily into the subcutis of BALB/c nude mice and produced poorly differentiated adenocarcinoma resembling the original tumor. The conditioned medium promoted the proliferation of CPAE (endothelial cells). The estradiol-17 beta and progesterone receptors were not detected.     

In vitro translation and estradiol-17beta induction of Xenopus laevis vitellogenin messenger RNA.

Administration of estradiol-17beta to male Xenopus laevis induces synthesis and secretion by the liver of the egg yolk precursor protein vitellogenin. RNA extracted from livers of estradiol-17beta-treated Xenopus laevis directs the synthesis of the entire 200,000-dalton vitellogenin monomer in a cell-free protein synthesizing system derived from rabbit reticulocytes. Vitellogenin synthesized in vitro was isolated and quantitated by indirect immunoprecipitation and identified by comparison to authentic [14C]vitellogenin. The in vitro product and [14C]vitellogenin co-migrate on electrophoresis in sodium dodecyl sulfate-polyacrylamide gels and they exhibit identical immunoprecipitation curves. Xenopus laevis vitellogenin messenger RNA has a sedimentation coefficient of approximately 30 S in sucrose density gradients. It can be purified approximately 60-fold from cell RNA by poly(U)-Sepharose chromatography and therefore appears to contain a polyadenylate sequence. Vitellogenin mRNA and vitellogenin synthesis in vivo could not be detected in unstimulated male Xenopus laevis. The relative rate of vitellogenin synthesis and the level of vitellogenin mRNA were determined at various times following the administration of estradiol-17beta. Vitellogenin synthesis is maximal 12 days after estradiol-17beta administration when it comprises approximately 70% of cell protein synthesis. The level of vitellogenin mRNA and the intracellular rate of vitellogenin synthesis exhibit a close correspondence from 4 to 16 days after administration of estradiol-17beta.