UMLS:C0006142 - FACTA Search

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of estrogen receptor beta (ER-beta) and its regulation by estradiol and anti-estrogens was analyzed in breast cancer cells. We determined that ER-beta is expressed in normal and tumor human breast tissue as well as in breast cancer cell lines. We observed moderate levels of ER-beta expression in both T47D and T47D-V22 (a T47D variant cell line) cells, in contrast with T47DCo (a T47D variant cell line) cells when compared to ER-alpha expression. While T47DCo (a T47D variant cell line), BT474, MDA-MB-231, MDA-MB-453, MDA-MB-468 and MCF-7 express low levels of ER-beta, other cell lines including the T47D-Y (a T47D variant cell line), MDA-MB-435, BT-549, and SKBr-3 cells express undetectable levels of ER-beta. Interestingly, ER-beta and ER-alpha are apparently not co-expressed in the breast tissue analyzed. Estradiol induced 30-40-fold increased ER-beta mRNA expression in T47D cells over control untreated cells. Moreover, the anti-estrogen, 4-hydroxy-tamoxifen (4OH-Tam) strongly inhibited estradiol induction of ER-beta expression, but had little or no effect on estradiol induction of ER-alpha. A pure anti-estrogen, ICI-182,780, completely abolished the ability of estradiol to up-regulate the expression of ER. In addition, both actinomycin D and cyclohexymide inhibited estradiol induction of ER-beta mRNA, indicating that de novo mRNA and protein synthesis are probably required for this induction. In summary, this study demonstrates that ER-beta is expressed in breast cancer, and it is regulated by estradiol. Moreover, the studies demonstrate that estradiol up-regulation of ER-beta mRNA in T47D cells can be abolished by anti-estrogens. Thus, ER-beta expression may serve as a prognostic, diagnostic and/or therapeutic marker for breast cancer. To the best of our knowledge, this is the first report regarding hormonal regulation of ER-beta in human mammary cells.
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PMID:Expression and regulation of estrogen receptor beta in human breast tumors and cell lines. 1060 11

To determine the molecular mechanisms underlying the "cross talk" between the activity of 2,3,7,8-tetra-chlorodibenzo-p-dioxin (TCDD), which binds to arylhydrocarbon receptor (AHR) and estradiol (E2)-liganded estrogen receptor (ER), we first examined the initial step of estrogen action, ligand binding to ER. None of the AHR ligands tested, i.e. TCDD, benzo[a]pyrene, 3,3',4,4',5-pentachlorobiphenyl, beta-naphthoflavone, or alpha-naphthoflavone, bound to ER alpha. We report the first examination of TCDD interaction with ER beta: TCDD did not displace E2 from ER beta. We then examined a second possible mechanism, i.e. direct inhibition of ER alpha binding to estrogen response elements (EREs) by the AHR/AHR nuclear translocator (ARNT) complex. The AHR/ARNT heterodimer did not bind either a full or half-site ERE. However, AHR/ARNT bound specifically to oligomers containing naturally occurring EREs derived from the human c-fos, pS2, and progesterone receptor (PR) gene promoters that include xenobiotic response element (XRE)-like sequences. In contrast, neither purified E2-liganded-ER from calf uterus or recombinant human ER alpha bound a consensus XRE. TCDD inhibited E2-activated reporter gene activity from a consensus ERE and from EREs in the pS2, PR, and Fos genes in transiently transfected MCF-7 human breast cancer cells. However, this inhibition was not reciprocal since E2 did not inhibit TCDD-stimulated luciferase activity from the CYP1A1 promoter in transiently transfected MCF-7 or human endometrial carcinoma HEC-1A cells. We propose that at least part of the mechanism by which the AHR/ARNT complex inhibits estrogen action is by competitively inhibiting ER alpha binding to imperfect ERE sites, adjacent to or overlapping XREs.
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PMID:The aryl hydrocarbon receptor (AHR)/AHR nuclear translocator (ARNT) heterodimer interacts with naturally occurring estrogen response elements. 1061 2

The role of estrogen (ER) and progesterone receptors (PR) in breast cancer is well established. Identification of the second human estrogen receptor, the estrogen receptor beta (ERbeta), prompted us to evaluate its role in breast cancer. We studied the expression of ERbeta by immunohistochemistry and mRNA in situ hybridization in 92 primary breast cancers and studied its association with ERalpha, PR, and various other clinicopathological factors. Sixty percent of tumors were defined as ERbeta-positive (nuclear staining in >20% of the cancer cells). Normal ductal epithelium and 5 of 7 intraductal cancers were also found to express ERbeta. Three-fourths of the ERalpha- and PR-positive tumors were positive for ERbeta, whereas ERalpha and PR were positive in 87% and 67% of ERbeta-positive tumors, respectively. ERbeta was associated with negative axillary node status (P < 0.0001), low grade (P = 0.0003), low S-phase fraction (P = 0.0003), and premenopausal status (P = 0.04). In conclusion, the coexpression of ERbeta with ERalpha and PR as well as its association with the other indicators of low biological aggressiveness of breast cancer suggest that ERbeta-positive tumors are likely to respond to hormonal therapy. The independent predictive value of ERbeta remains to be established.
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PMID:Estrogen receptor beta is coexpressed with ERalpha and PR and associated with nodal status, grade, and proliferation rate in breast cancer. 1062 50

Recent studies have indicated that a complex machinery of transactivation of target genes by estrogen or antiestrogen through estrogen receptor (ER) exists. However, the substantial roles of ER-beta, coactivators, and corepressors in the development and progression of breast cancer remain to be elucidated. To obtain some clue to these roles, we screened the expression levels of ER-alpha, ER-beta, coactivators (SRC-1, TIF2, AIB1, CBP, and P/CAF) and corepressors (N-CoR and SMRT) in 6 normal mammary glands, 6 intraductal carcinomas, 22 invasive ductal carcinomas, and 7 breast cancer cell lines using a multiplex reverse transcription-PCR. ER-alpha mRNA expression levels significantly correlated with ER-alpha protein levels measured by enzyme immunoassay in the breast cancer tissues and cell lines. A significant correlation of expression levels was observed between ER-alpha and TIF2, AIB1, P/CAF, and N-CoR, and between ER-beta and AIB1 and CBP in the tissue samples. A significant correlation was also observed between ER-alpha and ER-beta and between ER-beta and CBP in the cell lines. The expression levels of ER-alpha, TIF2, and CBP were significantly higher in the intraductal carcinomas than those in the normal mammary glands. In addition, the expression levels of ER-alpha and N-CoR were significantly higher in the intraductal carcinomas than those in the invasive ductal carcinomas. These findings suggest a positive correlation of expression levels among ER-alpha and cofactors and among ER-beta and cofactors, an up-regulation of expression levels of ER-alpha and cofactors during the development of intraductal carcinomas from normal mammary glands, and a decrease in their expression levels during the progression of breast cancer.
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PMID:Expression levels of estrogen receptor-alpha, estrogen receptor-beta, coactivators, and corepressors in breast cancer. 1069 May 32

It has recently been reported that the human myeloma cell line U266 proceeds to undergo apoptosis after cultivation with the antiestrogen tamoxifen, thus raising the possibility that antiestrogens may be candidates for use in myeloma therapy. To obtain basic information on the effects of antiestrogens on myeloma cells, we investigated the mRNA expression levels of estrogen receptor (ER)-alpha, ER-beta, and coactivators and corepressors in nine human myeloma cell lines and compared them with those of seven human breast cancer cell lines including four ER-positive and three ER-negative lines. The alterations in cell growth and mRNA expression of the target genes of ER or those of cytokines in the myeloma lines by estradiol or antiestrogens (tamoxifen and toremifene) were also investigated. In addition, effects on membrane Fas expression, appearance of apoptosis, and cell cycle perturbation were analyzed. It was revealed that ER-beta and corepressors were dominantly expressed in myeloma cells, and antiestrogens induced growth inhibition through apoptosis mediated by a Fas-related pathway and G1 arrest of the cell cycle in myeloma cell lines.
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PMID:Estrogen receptors in human myeloma cells. 1072 10

Knowledge regarding the expression of the recently cloned estrogen receptor beta (ERbeta) in colonic mucosa is limited. In this study, we demonstrated that five human colon cancer cell lines, HT29, Colo320, Lovo, SW480, and HCT116, expressed ERbeta mRNA, but lacked ERalpha mRNA. Results from a cell growth assay demonstrated that these colon cancer cells were not influenced by estrogen, while genistein possessed slight growth inhibitory effects on HT29, Colo320 and Lovo cells at 10 microM, at which concentration is stimulated the growth of ERalpha-positive human breast cancer MCF-7 cells. Tamoxifen inhibited the growth of HT29 and Colo320 cells, dose-dependently, as well as MCF-7 cells. A transfected reporter plasmid containing a vitellogenin estrogen response element could be activated by estradiol in Colo320 cells. Taken together with previous reports, these data suggest that ERalpha and ERbeta may have different biological functions in colon cells.
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PMID:Estrogen receptor beta mRNA in colon cancer cells: growth effects of estrogen and genistein. 1075 41

The estrogen receptor (ER) is the most useful marker currently available for breast cancer, being used both to predict response to therapy and assess prognosis. Recently, a new form of the ER, known as ER-beta, was identified. In this preliminary study we show that ER-beta mRNA was expressed less frequently in breast cancers than ER-alpha. ER-alpha but not ER-beta levels correlated with ER protein as determined by ELISA. We conclude that ER-beta is expressed in approximately 50% of breast cancers but it does not appear to be detected by a widely available ELISA.
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PMID:Detection of estrogen receptor-beta mRNA in breast cancer using RT-PCR. 1076 53

Vascular endothelial growth factor (VEGF) is a potent stimulator of angiogenesis and a prognostic factor for many tumors including those of endocrine-responsive tissues such as the breast and uterus. We and others have previously shown that VEGF is regulated by estradiol and tamoxifen in the uterus and by estradiol in human breast cancer cells, and pharmacological evidence has suggested that this regulation was mediated by transcriptional activation of the estrogen receptor (ER). This prompted us to investigate whether the VEGF gene contains sequences that bind the ER and confer hormonal inducibility to reporter constructs in the presence of the two ER subtypes. These studies identified two sequences homologous to the consensus estrogen response element, GGTCAnnnTGACC, which bind both ER-alpha and ER-beta. One of these elements is located in the 5'-untranslated region of the VEGF gene (GGGCAaagTGACT), and the other is located in the 3'-untranslated region (GAGCAcccTGCCC). Competition with excess unlabeled oligonucleotides indicates that these two elements bind both ERs specifically, mutations in either half-site of the two elements abolish receptor binding, and ER-alpha- and ER-beta-specific antibodies interact with complexes formed with the corresponding receptor subtypes. In cells containing either ER-alpha or ER-beta, the 3'-element behaves as a traditional enhancer that confers hormone inducibility to reporter constructs in an orientation-independent manner, and transcriptional activity is blocked by the pure antiestrogen ICI 182,780. The pattern of transcriptional activity of the element located in the 5'-flanking region is more complex. In the orientation found in the endogenous gene, this element is nonresponsive to ER-beta but confers estrogen-dependent inhibition of transcription with ER-alpha that is blunted by ICI 182,780. In the opposite orientation, the 5'-element confers hormone inducibility with either ER-alpha or -beta, and ICI 182,780 blocks activation by ER-alpha but not by ER-beta. These findings support the hypotheses that estrogens directly regulate VEGF transcription in target tissues and tumors, although such regulation appears likely to involve a complex interplay of cis- and trans-acting elements not previously observed for other hormone-responsive genes.
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PMID:Identification of functional estrogen response elements in the gene coding for the potent angiogenic factor vascular endothelial growth factor. 1086 9

The regulation of the quinone reductase (QR) gene as well as other genes involved in detoxification is known to be mediated by an electrophile/antioxidant response element (EpRE/ARE). We have previously observed that QR is up-regulated by the antiestrogen trans-hydroxytamoxifen in breast cancer cells. QR gene regulation by the antiestrogen-occupied estrogen receptor (ER) is mediated by the EpRE-containing region of the human QR gene, and the ER is one of the complex of proteins that binds to the EpRE. In an effort to further understand the mechanism for ER regulation of QR gene we identified other protein factors that regulate QR gene transcriptional activity in breast cancer cells. One of these protein factors, hPMC2 (human homolog of Xenopus gene which prevents mitotic catastrophe), directly binds to the EpRE and interacts with the ER in yeast genetic screening and in vitro assays. Interestingly hPMC2 interacts more strongly to ER beta when compared with ER alpha. In transient transfection assays using reporter constructs containing the EpRE, hPMC2 alone can slightly activate reporter in ER-negative MDA-MB-231 breast cancer cells. The activation of QR gene activity by hPMC2 is enhanced in the presence of ER beta.
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PMID:Identification and characterization of a novel factor that regulates quinone reductase gene transcriptional activity. 1090 61

Our previous studies have indicated that myoepithelial cells surrounding ductal and acinar epithelium of glandular organs, such as the breast, exert multiple paracrine suppressive effects on incipient and developing cancers that arise from this epithelium. Myoepithelial cells and derived cell lines (HMS 1-6) exert these effects through the secretion of a number of different effector molecules that exert anti-invasive, anti-proliferative, and anti-angiogenic activities. Since previous basic and clinical studies have examined the role of estrogen agonists and antagonists on human breast cancer cells and because issues of hormone replacement therapy (HRT) and tamoxifen chemoprevention are such timely issues in breast cancer, we wondered whether or not hormonal manipulations might affect myoepithelial cells in vitro as far as their paracrine suppressive activities on breast cancer were concerned. The present in vitro study demonstrates that treatment of myoepithelial cells with tamoxifen but not 17beta-estradiol increases both maspin secretion and invasion-blocking ability. Furthermore tamoxifen but not 17beta-estradiol increases inducible nitric oxide synthase (iNOS) expression and nitric oxide (NO) production by myoepithelial cells when they are co-cultured with conditioned media from or breast carcinoma cells directly. This increased myoepithelial NO exerts both autocrine and paracrine antiproliferative effects which can be blocked by inhibition of iNOS. 17beta-Estradiol, however, competes with all of these suppressive effects of tamoxifen suggesting that the mechanism of tamoxifen action is estrogen receptor mediated. Myoepithelial cells lack ER-alpha but express ER-beta. Tamoxifen, but not 17beta-estradiol, increases AP-1 CAT but not ERE-CAT activity. Again, 17beta-estradiol competes with the transcription-activating effects of tamoxifen. These experiments collectively suggest that the actions of tamoxifen on the increased secretion of maspin and increased production of NO by myoepithelial cells are mediated through ER-beta and the transcription-activation of an ER-dependent AP-1 response element.
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PMID:Tamoxifen enhances myoepithelial cell suppression of human breast carcinoma progression in vitro by two different effector mechanisms. 1093 73

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