UNIPROT:P06889 - FACTA Search

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Estrogens stimulate prolactin (PRL) synthesis by GH3 cells, a clonal strain of rat pituitary cells grown in culture. At 4 degrees C the binding of [3H]17 beta-estradiol to monolayer cultures of GH3 cells was specific and of limited capacity, with half-maximal and maximal binding after 1--2 h and 12 h, respectively. Scatchard analysis showed one single class of binding sites with Kd = 3.1 X 10(-10) M and n = 309 X 10(-15) mol 17 beta-estradiol/mg cell protein, calculated to give approx. 25,000 binding sites per cell. At 4 degrees C less than 10% of the specifically bound [3H]17 beta-estradiol was found in the nuclear fraction. When the incubation temperature was raised to 37 degrees C, the amount of radioactivity in the nucleus increased to 25% within 30 min with a corresponding reduction in the cytoplasm. The cytosol fractions from monolayer cultures as well as from tumors of GH3 cells contained specific 17 beta-estradiol binding proteins, having a sedimentation constant close to 8S in a salt-free buffer and 4S in the presence of 0.5 M KCl. scatchard analysis showed one single class of binding sites with Kd = 3.6 X 10(-10) M and n = 258 X 10(-15) mol 17 beta-estradiol/mg cytosol protein (GH3 tumor tissue). Thus, GH3 cells grown in culture and in the intact animal have similar binding characteristics as judged from the data for binding affinity, capacity and specificity. After the in vivo administration of [3H]17 beta-estradiol to GH3 tumor-bearing rats, radioactivity could be extracted (0.5 M KCl) from purified nuclei bound to 4.5S macromolecules. We suggest that the action of 17 beta-estradiol on GH3 cells involves an initial binding of the steroid to specific receptors in the cytoplasm, followed by transport of a fraction of the hormone-receptor complexes to the nucleus involving a temperature-sensitive step.
Mol Cell Endocrinol 1978 Oct
PMID:Receptors for 17beta-estradiol in prolactin-secreting rat pituitary cells. 56 89

Estrogens induce transcriptional activation of c-fos and c-myc proto-oncogenes during mitogenic stimulation of human, chicken, mouse and rat cells in vivo and in vitro. In this paper we show that 17 beta-estradiol injected into adult ovariectomized rats increases c-jun, jun-B and jun-D gene transcription in the uterus. Kinetics and amplitude of response are different for each gene, since c-jun is activated first, within 30 min after injection, followed by jun-D and jun-B, 60 and 90 min after injection, respectively. Maximal activation of jun-B marks a drop in transcription of all the jun genes. Furthermore, transcriptional activation by 17 beta-estradiol of the growth-regulated beta- and gamma-cytoskeletal actin genes is prevented by an inhibitor of protein synthesis, indicating that it is a secondary response to the hormone. These data support the hypothesis that during growth stimulation of target cells the estrogen receptor induces transcription of regulatory genes, triggering in this way a cascade of gene regulation events that results in progression through the cell cycle.
J Steroid Biochem Mol Biol 1992 Mar
PMID:Transcriptional activation of jun and actin genes by estrogen during mitogenic stimulation of rat uterine cells. 137

Benign prostatic hyperplasia (BPH) is a sex steroid dependent disease. Estrogens and androgens can modulate in different mammalian tissues epidermal growth factor (EGF) production and/or secretion. In order to clarify the relationships between estrogen and androgen receptor concentrations and those of immunoreactive EGF (irEGF), we have evaluated these parameters in 14 human BPH samples, by means of a dextran-coated charcoal method and radioimmunoassay, respectively. Cytosolic steroid receptors did not seem to correlate with irEGF. A linear significative relationship was evident between nuclear androgen receptor (ARn) levels and endogenous irEGF but not between nuclear estrogen receptors and irEGF: in ARn negative BPH samples, irEGF levels were lower than in ARn positive ones. Therefore, it is possible that androgens act at prostatic tissue level, through their own receptors, by modulating EGF production and/or secretion.
J Steroid Biochem Mol Biol 1992 Mar
PMID:Immunoreactive EGF in human benign prostatic hyperplasia: relationships with androgen and estrogen receptors. 137 3

Within the framework of experiments related to the association between dietary fiber and breast cancer an in vitro test system was used to study the binding of estrogens to various fibers (e.g. cholestyramin, lignin and cellulose) and fiber sources (e.g. wheat bran, cereals, seeds and legumes). Furthermore, the in vivo apparent digestibility of the different fiber sources was tested using a mobile nylon bag technique in intestine-cannulated pigs. Estradiol-17 beta (E2) bound more strongly to the various fibers than did estrone (E1), estriol or estrone-3-glucuronide. At increasing pH (greater than 7) binding of both E1 and E2 to wheat bran decreased significantly. Cholestyramine and lignin bound almost all estrogens present in the medium. Linseed (91%), oats (83%), barley chaff (88%) and wheat bran (82%) are other excellent binders of E2. Corn, rye and white wheat flour showed lower binding capacity with a relatively low affinity. Cereals with the highest percentage of lignin in the fiber (greater than 3%) were also the fiber sources with the lowest apparent digestibility. Estrogens bound with the highest affinity (relative to bovine serum albumin) to these fiber sources. Together with wheat bran and lignin, oats, linseed and soybean seem to be products with good perspectives for in vivo evaluation of the lowering effect of dietary fiber on estrogen exposure of estrogen-sensitive tissues.
J Steroid Biochem Mol Biol 1991 May
PMID:In vitro binding of estrogens by dietary fiber and the in vivo apparent digestibility tested in pigs. 164 89

The mitogenic activity of several growth factors on androgen responsive LNCaP human prostate tumor cells was studied. A two-fold stimulation of cell proliferation was observed after a culture period of 6 days in 1 ng EGF/ml, 10 ng TGF-alpha/ml or 20 ng basic FGF/ml. TGF-beta (0.02 ng/ml), which did not affect cell proliferation when added alone to the culture medium, inhibited the EGF- and TGF-alpha-induced growth. The synthetic androgen R1881 (0.1 nM) stimulated cell proliferation three-fold and increased the number of EGF receptors from 11500 to 28500 sites/cell. One of the mechanisms involved in androgen action on these cells is therefore an increased EGF receptor expression and increased sensitivity to EGF. TGF-beta did not directly affect androgen-responsive growth but inhibited the synergistic effect of EGF. A considerable expression of TGF alpha (precursors) could be demonstrated on the cells by immunohistochemical staining. However the staining intensity was not affected by androgens. These results make it less likely that androgen-responsive growth is mediated by regulation of secretion of an EGF- or TGF alpha-like activity, which in turn acts in an autocrine manner to stimulate growth. Estrogens, progestagens and antiandrogens do not inhibit androgen responsive growth of LNCaP cells but have striking growth stimulatory effects, increase EGF receptor level and increase acid phosphatase secretion. LNCaP cells contain a modified androgen receptor system with respect to both steroid specificity and antiandrogen sensitivity. It has recently been shown that the stimulatory effects are due to a mutated amino acid in the steroid binding domain of the androgen receptor.
J Steroid Biochem Mol Biol 1991
PMID:Regulation of growth of LNCaP human prostate tumor cells by growth factors and steroid hormones. 195 20

Estrogens have an important role in the growth of breast and other hormone-sensitive cancers. We have shown that 4-hydroxyandrostenedione (4-OHA) selectively blocks estrogen synthesis by inhibiting aromatase activity in ovarian and peripheral tissues and reduces plasma estrogen levels in rat and non-human primate species. In postmenopausal men and women, estrogens are mainly of peripheral origin. When postmenopausal breast cancer patients were administered either by daily oral or parenteral weekly treatment with 4-OHA, plasma estrogen concentrations were significantly reduced. Complete or partial response to treatment occurred in 34% of 100 patients with advanced breast cancer, while the disease was stabilized in 12%. We recently studied the effects of 4-OHA and other aromatase inhibitors, 10-propargylestr-4-ene-3,17-dione (PED) and imidazo[1,5-alpha]3,4,5,6-tetrahydropyrin-6-yl-(4-benzonitrile) (CGS 16949A) as well as 5 alpha-reductase inhibitors, N,N-diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxyamide (4-MA) and 17 beta-hydroxy-4-aza-4-methyl-19norandrost-5-en-3-one (L651190) in prostatic tissue from 11 patients with prostatic cancer and six patients with benign prostatic hypertrophy (BPH), and from normal men at autopsy. We attempted to measure aromatase activity in tissue incubation by quantitating 3H2O released during aromatization of androstenedione or testosterone labeled at the C-1 position. The amount of 3H2O released from all samples was at least twice that of the heat inactivated tissue samples. The 3H2O release was significantly inhibited by 4-OHA and 4-MA, but not by the other aromatase inhibitors. However, when HPLC and TLC were used to isolate steroid products, no estrone or estradiol was detected in the incubates. Furthermore, no aromatase mRNA was detected following amplification by PCR. The 4-OHA was found to inhibit 5 alpha-reductase in both BPH and cancer tissue, although to a lesser extent than 4-MA. The other aromatase inhibitors were without effect. Although a mechanism involving intraprostatic aromatase is not likely, inhibitors may act to reduce peripherally-formed estrogens. In postmenopausal breast cancer, the results indicate that 4-OHA is of significant benefit.
J Steroid Biochem Mol Biol 1990 Dec 20
PMID:Aromatase and other inhibitors in breast and prostatic cancer. 228 80

Primary well-differentiated dimethylbenzene alpha-anthracene (DMBA)-or nitrosomethylurea (NMU)-induced rat mammary adenocarcinomas that are estrogen dependent possess biologically active and immunoreactive transforming growth factor alpha (TGF alpha), which can be detected in a sort agar growth-promoting assay and by a specific liquid-phase competitive RIA, respectively. In contrast, tissue extracts prepared from transplantable undifferentiated DMBA-I and NMU-II rat mammary carcinomas that are estrogen independent and metastatic exhibit low or undetectable levels of TGF alpha. In addition, the primary DMBA- and NMU-induced rat mammary adenocarcinomas express a specific 4.8-kilobase TGF alpha mRNA species, whereas little or no TGF alpha mRNA can be detected in the transplantable DMBA-I and NMU-II tumors. Primary tumors synthesize type IV basement membrane collagen, whereas the transplantable tumors elaborate very little type IV collagen. Either TGF alpha or estrogens can differentially enhance the synthesis of type IV collagen by 0.5- to 4-fold over total protein synthesis in primary cultures of normal mouse mammary epithelial cells or in primary NMU-induced tumor cells, respectively. Therefore, TGF alpha could function as an estrogen-inducible autocrine growth factor for well differentiated rat mammary tumor cells by its ability to selectively regulate type IV collagen synthesis. Estrogens can modulate TGF alpha production in vivo in primary DMBA-induced rat mammary tumors, because ovariectomy results in a rapid decline (within 6 h) of TGF alpha mRNA levels. This response to estrogens can also be observed in vitro. Primary DMBA- or NMU-induced rat mammary tumor cells cultured in the presence of 17 beta-estradiol (10(-8) M) for 4 days show an increase in the level of TGF alpha mRNA over cells not treated with estrogen. This increase in TGF alpha mRNA is paralleled by a 2- to 3-fold increase in the levels of immunoreactive TGF alpha that can be detected and in the conditioned medium from estrogen-treated cells. These results suggest that TGF alpha may be an adjunct marker for those mammary tumors that are well differentiated adenocarcinomas and estrogen dependent and that estrogen-independent tumors do not constitutively produce TGF alpha or express TGF alpha mRNA.
Mol Endocrinol 1987 Oct
PMID:Expression of transforming growth factor alpha (TGF alpha) in differentiated rat mammary tumors: estrogen induction of TGF alpha production. 248 11

The antiestrogens LY117018 and tamoxifen increased prolactin production about 4-fold and cell number about 2.5-fold in the pituitary tumor cell line, GH4C1; these increases were 30-40% of the maximal effects of estradiol. The antiestrogens competed with binding of [3H]estradiol, and LY117018 was more active than tamoxifen in biological activities and binding activity. The antiestrogens inhibited stimulation caused by 10(-10) M estradiol; the inhibition could be overcome by increased estradiol concentrations. Tamoxifen and LY117018 increased the amount of prolactin mRNA per cell. These antiestrogens behave as partial agonists in the GH4C1 cells, but have two unusual features. Estrogens are approximately 10-fold more potent in stimulating cell number than in stimulating prolactin production, but the antiestrogens showed the same dose-response for both effects. The partial agonist activity was biphasic and at higher concentrations the antiestrogens showed more antagonist activity (GH4C1 cells, 17 beta-estradiol, tamoxifen).
Mol Cell Endocrinol 1986 Oct
PMID:Characterization of antiestrogen stimulation of cell number and prolactin production. 375 72

Estrogens increase both basal and LHRH-induced LH release in rat anterior pituitary cells in culture. Following 48 h of preincubation with 1 nM 17 beta-estradiol, the maximal LH response to LHRH is increased 1.5-fold while the ED50 value of LHRH action is decreased 2.5-fold from 500 to 200 pM. The maximal 3-fold stimulation of 0.3 nM LHRH-induced LH release by 17 beta-estradiol is exerted at a KD value of 14.4 pM. Keoxifene (300 nM) completely blocks the potent stimulatory effect of 17 beta-estradiol up to 1 nM, the highest concentration of the estrogen used. As shown by the complete reversal of the stimulatory effect of 0.1 and 1.0 nM 17 beta-estradiol by keoxifene at IC50 values of 7.7 and 34 nM respectively, the antiestrogen interacts competitively with 17 beta-estradiol at the estrogen binding site. When present alone, keoxifene shows no estrogenic activity. The present data show that keoxifene acts as a pure antiestrogen on the control of LHRH-induced LH release in rat pituitary gonadotrophs.
Mol Cell Endocrinol 1985 Feb
PMID:Keoxifene shows pure antiestrogenic activity in pituitary gonadotrophs. 388 13

Antiestrogens, acting via the estrogen receptor (ER) evoke conformational changes in the ER and inhibit the effects of estrogens as well as exerting anti-growth factor activities. Although the binding of estrogens and antiestrogens is mutually competitive, studies with ER mutants indicate that some of the contact sites of estrogens and antiestrogens are likely different. Some mutations in the hormone-binding domain of the ER and deletions of C-terminal regions result in ligand discrimination mutants, i.e. receptors that are differentially altered in their ability to bind and/or mediate the actions of estrogens vs antiestrogens. Studies in a variety of cell lines and with different promoters indicate marked cell context- and promoter-dependence in the actions of antiestrogens and variant ERs. In several cell systems, estrogens and protein kinase activators such as cAMP synergize to enhance the transcriptional activity of the ER in a promoter-specific manner. In addition, cAMP changes the agonist/antagonist balance of tamoxifen-like antiestrogens, increasing their agonistic activity and reducing their efficacy in reversing estrogen actions. Estrogens, and antiestrogens to a lesser extent, as well as protein kinase activators and growth factors increase phosphorylation of the ER and/or proteins involved in the ER-specific response pathway. These changes in phosphorylation alter the biological effectiveness of the ER. Multiple interactions among different cellular signal transduction systems are involved in the regulation of cell proliferation and gene expression by estrogens and antiestrogens.
J Steroid Biochem Mol Biol 1995 Jun
PMID:Antiestrogens: mechanisms and actions in target cells. 762 86

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