Estradiol-17β stimulates proliferation of uterine epithelial cells cultured with stromal cells but not cultured separately

Summary There is indirect evidence that the in vivo proliferative response of rodent uterine epithelium to estrogen requires interaction with the underlying stroma in pre- and post-pubescent animals. To examine this potential requirement directly, the proliferative response of epithelium to 17β-estradiol in the presence or absence of stroma was measured in vitro. Uterine epithelial and stromal cells were isolated separately from immature or adult mice, and were maintained as monocultures or cocultures in defined, serum-free medium with or without 8 × 10⁻⁹ M 17β-estradiol. Incorporation of bromodeoxyuridine into the DNA was determined by immunolabeling to assay proliferation in individual cells. Cell morphology and immunolabeling of cytokeratin were used to distinguish epithelial from stromal cells. Treatment of cocultures with 17β-estradiol for 24 h increased the proliferation of epithelial cells relative to controls approximately threefold, whereas, in monocultures of epithelial or stromal cells 17β-estradiol decreased the number of bromodeoxyuridine-incorporating cells by approximately half. Furthermore, cell contact between epithelial and stromal cells was important for the effects of 17β-estradiol on cells in cocultures. Approximately three quarters of the 17β-estradiol-induced proliferation of epithelial cells in cocultures was produced by epithelial cells within colonies that were also contacting stromal cells. These results are consistent with the hypothesis that stromal cells mediate the estrogenic proliferative response, and provide evidence that this mediation involves cell contact or stroma-mediated changes in the microenvironment immediately around the epithelial cell.     

Conditionally immortal ovarian cell lines for investigating the influence of ovarian stroma on the estrogen sensitivity and tumorigenicity of ovarian surface epithelial cells

The tendency of the ovarian surface epithelium (OSE) to undergo metaplastic and morphogenetic changes during the life cycle, at variance with the adjacent peritoneal mesothelial cells, suggests that its biology may be regulated by underlying ovarian stromal cues. However, little is known about the role that the ovarian stroma plays in the pathobiology of the OSE, largely because of the lack of a suitable in vitro model. Here, we describe the establishment and characterization of conditionally immortalized ovarian stromal and surface epithelial cell lines from H-2K(b)-tsA58 transgenic mice that carry the thermolabile mutant of SV-40 large T antigen under the control of an interferon-gamma (IFN-gamma)-inducible promoter. These cells express functional T antigens, grow continuously under permissive conditions at 33 degrees C in the presence of IFN-gamma, and stop dividing when the activity and expression of the tumor antigen is suppressed by restrictive conditions without IFN-gamma at 39 degrees C. Morphological, immunohistochemical, and ultrastructural analyses show that conditionally immortal OSE cells form cobblestone-like monolayers, express cytokeratin and vimentin, contain several microvilli, and develop tight junctions, whereas stromal cells are spindle-like, express vimentin but not cytokeratin, and contain rare microvilli, thus exhibiting epithelial and stromal phenotypes, respectively. At variance with the reported behavior of rat epithelial cells, conditionally immortal mouse epithelial cells are not spontaneously transformed after continuous culture in vitro. More importantly, conditioned media from stromal cells cultured under permissive conditions increase the specific activity of the endogenous estrogen receptor in BG-1 human ovarian epithelial cancer cells and promote these cells' anchorage-independent growth, suggesting the paracrine influence of a stromal factor. In addition, stromal cells cultured under restrictive conditions retain this growth-stimulatory activity, which, therefore, appears to be independent of T antigen expression. These established cell lines should provide a useful in vitro model system for studying the role of cellular interactions in OSE cell growth and tumorigenesis.     

Estrogen receptors,antiestrogens, and non-small cell lung cancer

This review considers data on expression of different types of estrogen receptors (ERα and ERβ) in in vitro cultured cells of non-small cell lung cancer and also in human and animal lung tumors. Estrogens are shown to play an important role in genesis and development of non-small cell lung cancer because the estrogen-stimulated cell proliferation as well as antiestrogen-caused inhibition of proliferation occurred only in the cells expressing different types of estrogen receptors. In general, the situation is similar to that observed in breast cancer, but in the cells of non-small cell lung cancer not ERα are expressed in more than half of cases but ERβ. Just estrogen receptors β play the crucial role in inducing cell proliferation in response to estrogens, and ERβ is a prognostic marker of a favorable course of non-small cell lung cancer. Data on the interactions between ER and EGFR signaling pathways, as well as on the additive antitumor effect of antiestrogens (tamoxifen and fulvestrant) combined with tyrosine kinase inhibitors (gefitinib, erlotinib, and vandetanib) are considered. The review also includes data on the influence of estrogens on genesis and development of lung cancer in humans and animals and the frequency of ERα and ERβ expression in non-small cell lung cancer in tissues from patients of the two sexes. Problems of quantitative determination of α and β estrogen receptors in the tumor cells are also discussed.     

Human ovarian surface epithelium in primary culture

Summary The ovarian surface epithelium (OSE) represents a minute fraction of the cell mass of the ovary but gives rise to over 80% of human ovarian carcinomas. No experimental models for the study of human OSE exist. To characterize OSE cells in culture, explants of ovarian surface from normal ovary of premenopausal women were grown on plastic, glass, and collagen gel in 25% fetal bovine serum/Waymouth's medium 752/1. About 25% of explants produced epithelial outgrowths. Morphologically, these outgrowths resembled OSE in vivo and endothelial and mesothelial cells in culture, but they differed from cultured ovarian stromal, granulosa, and luteal cells. Only OSE among ovarian cell types were intensely keratin positive by immunofluorescence. Keratin also distinguished OSE cells from the keratin-negative endothelial cells. Most but not all OSE colonies tested showed 17β-hydroxysteroid dehydrogenase (HSD) activity, which was absent in peritoneal mesothelial cells. Colonies from most patients were limited to a few millimetres and became stationary within a few weeks. Changes that accompanied cessation of growth included senescence, increased keratin content, or the formation of multicellular papillary aggregates. With time, OSE cells tended to assume a fibroblast-like morphology but remained keratin positive and continued to resemble OSE by scanning electron microscopy (SEM). Subcultured OSE cells persisted in a stationary keratin-positive form for many weeks. Throughout this study, all pavementlike epithelial outgrowths that were contiguous with an explant stained for keratin; thus, such colonies can be assumed to be OSE. Conversely, fibroblast-shaped cells may represent OSE as indicated by keratin content and SEM appearance. The methods presented here permit culture of normal human OSE under conditions in which the cells exhibit morphologic plasticity, variable 17β-HSD activity, and presence of keratin. Supported by a grant and a research associateship to N. A. by the National Cancer Institute of Canada.     

Estrogen-dependent regulation of sodium/hydrogen exchanger-3 (NHE3) expression via estrogen receptor β in proximal colon of pregnant mice

Although constipation is very common during pregnancy, the exact mechanism is unknown. We hypothesized that the involvement of estrogen receptor (ER) in the regulation of electrolyte transporter in the colon leads to constipation. In this study, the intestines of normal female ICR mouse and pregnant mice were examined for the expression of ERα and ERβ by immunohistochemistry and in situ hybridization. ERβ, but not ERα, was expressed in surface epithelial cells of the proximal, but not distal, colon on pregnancy days 10, 15, and 18, but not day 5, and the number of ERβ-positive cells increased significantly during pregnancy. Expression of NHE3, the gene that harbors estrogen response element, examined by immunohistochemistry and western blotting, was localized in the surface epithelial cells of the proximal colon and increased in parallel with ERβ expression. In ovariectomized mice, NHE3 expression was only marginal and was up-regulated after treatment with 17β-estradiol (E₂), but not E₂ + ICI 182,780 (estrogen receptor antagonist). Moreover, knock-down of ERβ expression by electroporetically transfected siRNA resulted in a significant reduction of NHE3 expression. These results indicate that ERβ regulates the expression of NHE3 in the proximal colon of pregnant mice through estrogen action, suggesting the involvement of increased sodium absorption by up-regulated NHE3 in constipation during pregnancy.     

Estrogen-like properties of brominated analogs of bisphenol A in the MCF-7 human breast cancer cell line

Tetrabromobisphenol A (TeBBPA) is a four-meta-brominated variant of bisphenol A (BPA) and is one of the most commonly used brominated flame retardants worldwide. We compared the estrogenic potency of TeBBPA, BPA and the brominated analogs mono- (MBBPA), di- (DBBPA), and tribromobisphenol A (TrBBPA) in the estrogen-dependent human breast cancer cell line MCF-7. All of the compounds competed with 17β-estradiol for binding to the estrogen receptor, although the affinity of the test chemicals to the estrogen receptor was much lower than that of 17β-estradiol. TrBBPA and TeBBPA showed a considerably lower access to the estrogen receptors within intact MCF-7 cells incubated in 100% serum compared to incubation in serum-free medium, indicating a strong binding to serum proteins. BPA, MBBPA, and DBBPA showed only a slightly reduced access to the receptors. All of the test compounds induced proliferation in MCF-7 cells, the potential decreasing with increasing number of bromo-substitutions. TeBBPA did not induce maximal cell growth, indicating cytotoxic effects at high concentrations. BPA and the brominated analogs, except TeBBPA, induced progesterone receptor and pS2 to the same extent as 17β-estradiol, although at much higher concentrations. Our studies demonstrate that compared to 17β-estradiol, BPA and the brominated analogs have much lower estrogenic potencies for all of the endpoints tested, TeBBPA being the least estrogenic compound. This revised version was published online in July 2006 with corrections to the Cover Date.     

Effects of Pharmacological Concentrations of Estrogens on Growth of 3AO Human Ovarian Cancer Cells

During the past two decades, the knowledge of the molecular mechanism by which estrogens exert various functions in different tissues and organs has evolved rapidly. Recent reports demonstrated that estrogen could decrease the cell growth in several types of cancer cells, including ovarian cancer cells. Though experiments explored the possible mechanism of the inhibitory effect, the exact mechanism is responsible for the effect, which remains unclear. The ovary is the main source of the estrogen, estrogen receptor is expressed in several ovarian cell types, including ovarian surface epithelium, the tissue of origin of approximately 90% of the ovarian cancers. It was of great interest to analyze the effects of 17β-estradiol (E2) on apoptosis of ovarian cancer cells, and the identification of E2-regulated specific genes involved in epithelial proliferation apoptosis, thus may be a clue for understanding the progression of ovarian cancer and for the design of new target therapies. To elucidate the mechanism involved, effects of pharmacological concentrations of estrogen were studied in human ovarian cancer cell line 3AO cells. Inhibition of cellular growth of 3AO cells was seen with E2 at concentrations higher than 0.1 μmol/L. The estrogen receptor inhibitor ICI 182780 cannot block the inhibitory effect of E2. It was surprising to find that ICI 182780 itself can inhibit the growth of 3AO cells, and had a collaborative effect with E2. The decreased cell growth induced by E2 was shown to be apoptosis as analyzed by flow cytometry. ERβ was detected in the 3AO ovarian cancer cell line but not ERα. The expression of ERβ was weak, which may partially explain why high but not low dose of E2 needed to induce the apoptosis of 3AO cells. We also observed that membrane impermeable E2, E2-BSA have lost growth inhibitory on 3AO cells, which excluded the membrane effect of E2 as previously reported by many investigators. The p38 kinase inhibitor, SB203580 were partially protected 3AO cells against growth inhibition by E2, while inhibitor of JNK, SP600125 enhanced cell death induced by E2. These results showed that MAPK is implicated in cellular processes involving apoptosis.     

Isolation and characterization of rabbit ovarian surface epithelium,granulosa cells,and peritoneal mesothelium in primary culture

Summary Mammalian ovarian surface epithelial (OSE) cells and peritoneal mesothelial (PM) cells have a common embryologic origin, yet certain morphologic and histochemical characteristics are different in the adult. In this study, a two-step culture method was developed to examine the characteristics of these two cell types in vitro. OSE, PM, and ovarian granulosa (GC) cells were isolated from estrous rabbits and cultured for 6 d in 5% serum-supplementedd-valine medium (to inhibit fibroblast growth), then incubated for a further 2 d in serum-free McCoy's 5A medium. This study showed that rabbit OSE and PM cells in vitro maintained certain in vivo morphologic characteristics; OSE cells exhibited distinct cell borders and abundant microvilli of homogeneous size and shape, whereas PM cells were characterized by obscure cell borders and abundant microvilli of heterogeneous form. GC in vitro exhibited overlapping cell borders and sparse microvilli of homogeneous structure. This study showed for the first time that cultured rabbit OSE and PM cells, but not GC, contain distinct filaments of cytokeratin 18. In addition, rabbit OSE cells and GC, but not PM cells, contained 17β-hydroxysteroid dehydrogenase. However, only GC contained delta 5-3β hydroxysteroid dehydrogenase. OSE, PM, and GC maintained their ultrastructural and histochemical characteristics in serum-free medium. These results suggest that rabbit OSE cells in vitro could be distinguished from PM cells by histochemical and ultrastructural differences. Furthermore, because these characteristics were not altered in serum-free medium, the two-step culture method will be valuable in further hormonal studies of these cells in vitro. This work was supported in part by Grant No. 202-3192 from the University of South Dakota Parsons Fund