UNIPROT:P04155 - FACTA Search

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Query: UNIPROT:P04155 (pS2)
1,234 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In previous studies, decreased growth of tumor cells by vitamin B-6 treatment has been attributed to modulation of steroid hormone action. Therefore, the growth-inhibiting properties of pyridoxal (PL) supplementation were studied in estrogen receptor-positive, MCF-7 and T-47D, and estrogen receptor-negative, BT-20, breast cancer cell lines. Cell counting and [3H]thymidine incorporation into DNA were used to assess growth, and analysis of pS2 expression was used to determine whether PL supplementation affected estrogen action. Treatment with 100 or 300 mM PL resulted in dose-dependent decreases in total cell numbers in the absence (26-85% and 72-98%, respectively) and presence (38-42% and 88-98%, respectively) of estradiol in all cell lines studied compared with control cells cultured without PL supplementation. Similar decreases in DNA synthesis were observed in response to PL supplementation. Incorporation of [3H]thymidine into DNA of cells cultured with 100 or 300 microM PL was decreased by 30-90% and 96-99%, respectively, in the absence and by 32-40% and 82-99%, respectively, in the presence of estradiol. Northern analysis showed that expression of the estrogen-sensitive gene pS2 was not affected by either concentration of PL. These results indicate that PL supplementation regulates breast cancer cell growth in vitro via a mechanism that appears to be steroid independent.
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PMID:Pyridoxal supplementation reduces cell proliferation and DNA synthesis in estrogen-dependent and -independent mammary carcinoma cell lines. 1152 7

Estrogen receptor beta (ERbeta) activates transcription by binding to estrogen response elements (EREs) and coactivator proteins that act as bridging proteins between the receptor and the basal transcription machinery. Although the imperfect vitellogenin B1, pS2, and oxytocin (OT) EREs each differ from the consensus vitellogenin A2 ERE sequence by a single base pair, ERbeta activates transcription of reporter plasmids containing A2, pS2, B1, and OT EREs to different extents. To explain how these differences in transactivation might occur, we have examined the interaction of ERbeta with these EREs and monitored recruitment of the coactivators amplified in breast cancer (AIB1) and transcription intermediary factor 2 (TIF2). Protease sensitivity, antibody interaction, and DNA pull-down assays demonstrated that ERbeta undergoes ERE-dependent changes in conformation resulting in differential recruitment of AIB1 and TIF2 to the DNA-bound receptor. Overexpression of TIF2 or AIB1 in transient transfection assays differentially enhanced ERbeta-mediated transcription of reporter plasmids containing the A2, pS2, B1, and OT EREs. Our studies demonstrate that individual ERE sequences induce changes in conformation of the DNA-bound receptor and influence coactivator recruitment. DNA-induced modulation of receptor conformation may contribute to the ability of ERbeta to differentially activate transcription of genes containing divergent ERE sequences.
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PMID:Estrogen response elements alter coactivator recruitment through allosteric modulation of estrogen receptor beta conformation. 1157 41

The estrogenic soy isoflavone, genistein, stimulates growth of estrogen-dependent human breast cancer (MCF-7) cells in vivo. Genistin is the glycoside form of genistein and the predominant form found in plants. It is generally believed that genistin is metabolized to the aglycone genistein in the lower gut. However, it is unclear if the rate of metabolism of genistin to genistein is sufficient to produce a level of genistein capable of stimulating estrogen-dependent breast cancer cell growth. Our hypothesis was that dietary genistin would stimulate tumor growth similar to that observed with genistein in athymic mice. To test this hypothesis, genistin or genistein was fed to athymic mice containing xenografted estrogen-dependent breast tumors (MCF-7). Mice were fed either genistein at 750 p.p.m. (parts per milllion) or genistin at 1200 p.p.m., which provides equal molar concentrations of aglycone equivalents in both diets. Tumor size was measured weekly for 11 weeks. At completion of the study, half of the animals per treatment group were killed and tumors collected for evaluation of cellular proliferation and estrogen-responsive pS2 gene expression. Incorporation of bromo-deoxyuridine into cellular DNA was utilized as an indicator of cellular proliferation. Dietary genistin resulted in increased tumor growth, pS2 expression and cellular proliferation similar to that observed with genistein. The remaining mice were switched to diets free of genistin and genistein. When mice were placed on isoflavone free diets, tumors regressed over a span of 9 weeks. Next, we examined how effectively and where metabolism of genistin to genistein occurred in the digestive tract. We present evidence that demonstrates conversion of genistin to its aglycone form genistein begins in the mouth and then continues in the small intestine. Both human saliva and the intestinal cell-free extract from mice converted genistin to genistein. In summary, the glycoside genistin, like the aglycone genistein, can stimulate estrogen-dependent breast cancer cell growth in vivo. Removal of genistin or genistein from the diet caused tumors to regress.
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PMID:Dietary genistin stimulates growth of estrogen-dependent breast cancer tumors similar to that observed with genistein. 1157 7

CITED1, a CBP/p300-binding nuclear protein that does not bind directly to DNA, is a transcriptional coregulator. Here, we show evidence that CITED1 functions as a selective coactivator for estrogen-dependent transcription. When transfected, CITED1 enhanced transcriptional activation by the ligand-binding/AF2 domain of both estrogen receptor-alpha (ERalpha) and ERbeta in an estrogen-dependent manner, but it affected transcriptional activities of other nuclear receptors only marginally. CITED1 bound directly to ERalpha in an estrogen-dependent manner through its transactivating domain, and this binding activity was separable from its p300-binding activity. CITED1 was strongly expressed in nulliparous mouse mammary epithelial cells and, when expressed in ER-positive MCF-7 breast cancer cells by transduction, exogenous CITED1 enhanced sensitivity of MCF-7 cells to estrogen, stabilizing the estrogen-dependent interaction between p300 and ERalpha. The estrogen-induced expression of the transforming growth factor-alpha (TGF-alpha) mRNA transcript was enhanced in the CITED1-expressing MCF-7 cells, whereas estrogen-induced expression of the mRNA transcripts for progesterone receptor or pS2 was not affected. Chromatin immunoprecipitation assay revealed that endogenous CITED1 is recruited to the chromosomal TGF-alpha promoter in MCF-7 cells in an estrogen-dependent manner but not to the pS2 promoter. These results suggest that CITED1 may play roles in regulation of estrogen sensitivity in a gene-specific manner.
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PMID:Selective coactivation of estrogen-dependent transcription by CITED1 CBP/p300-binding protein. 1158 Nov 64

Genes whose expression is highly induced by estradiol (E(2)) contain multiple estrogen response elements (EREs) in their promoters. Previously we reported that estrogen receptor-alpha (ERalpha) binds cooperatively to and E(2) synergistically activates reporter gene expression from three or four tandem copies of a consensus ERE (EREc38). Here we evaluated how ERalpha binding to one, two, three or four tandem copies of EREc38 affects ERalpha conformation as detected by altered ERalpha trypsin digestion patterns in Western blots. E(2)- or 4hydroxytamoxifen (4-OHT)-occupied ERalpha bound to the pS2 ERE or to a single copy of EREc38 showed enhanced susceptibility to trypsin digestion compared to E(2)- or 4-OHT-ERalpha incubated with DNA lacking an ERE. ERalpha binding to multiple tandem copies of EREc38 further increased sensitivity to trypsin digestion. These results correlate with synergistic transcription and cooperativity of ERalpha binding to multiple tandem copies of EREc38. These observations suggest that EREc38 binding alters the overall conformation of ERalpha and that multiple tandem copies of EREc38 enhance these conformational changes. We hypothesize that ERE-induced alterations in ERalpha conformation modulate interaction with coregulatory proteins, resulting in synergistic transcriptional activation.
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PMID:Estrogen response element binding induces alterations in estrogen receptor-alpha conformation as revealed by susceptibility to partial proteolysis. 1171 81

Steroid receptor RNA activator (SRA) is a novel coactivator for steroid receptors that acts as an RNA molecule, whereas steroid receptor coactivator (SRC) family members, such as steroid receptor coactivator-1 (SRC-1) and transcriptional intermediary factor 2 (TIF2) exert their biological effects as proteins. Individual overexpression of each of these coactivators, which can form multimeric complexes in vivo, results in stimulated ERalpha transcriptional activity in transient transfection assays. However there is no information on the consequences of reducing SRC-1, TIF2, or SRA expression, singly or in combination, on ERalpha transcriptional activity. We therefore developed antisense oligodeoxynucleotides (asODNs) to SRA, SRC-1, and TIF2 mRNAs, which rapidly and specifically reduced the expression of each of these coactivators. ERalpha-dependent gene expression was reduced in a dose-dependent fashion by up to 80% in cells transfected with these oligonucleotides. Furthermore, treatment of cells with combinations of SRA, SRC-1, and TIF2 asODNs reduced ERalpha transcriptional activity to an extent greater than individual asODN treatment alone, suggesting that these coactivators cooperate, in at least an additive fashion, to activate ERalpha-dependent target gene expression. Finally, treatment of MCF-7 cells with asODN against SRC-1 and TIF2 revealed a requirement of these coactivators, but not SRA, for hormone-dependent DNA synthesis and induction of estrogen-dependent pS2 gene expression, indicating that SRA and SRC family coactivators can fulfill specific functional roles. Taken together, we have developed a rapid method to reduce endogenous coactivator expression that enables an assessment of the in vivo role of specific coactivators on ERalpha biological action and avoids potential artifacts arising from overexpression of coactivators in transient transfection assays.
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PMID:Reduction of coactivator expression by antisense oligodeoxynucleotides inhibits ERalpha transcriptional activity and MCF-7 proliferation. 1181 99

The human testicular orphan receptor 4 (TR4) is a member of the nuclear receptor superfamily that shows a broad tissue distribution with higher expression in the nervous system and male reproductive tract. TR4 functions as a transcriptional modulator that controls various target genes via binding to the DNA hormone response elements. Here we report that instead of direct binding to hormone response elements for gene regulation, TR4 can also go through direct protein-protein interaction to repress estrogen receptor (ER)-mediated transactivation. Electrophoretic mobility shift and glutathione S-transferase pull-down assays clearly demonstrate that the direct interaction between TR4 and ER will inhibit the homodimerization of ER and interrupt/prevent ER binding to the estrogen response element. The consequence of these events may then result in the suppression of ER target genes, such as cyclin D1 and pS2 and inhibition of ER-mediated cell proliferation in the MCF-7 cells stably transfected with TR4. Together, our results showing that TR4 can suppress ER function via protein-protein interaction not only represent a unique cross-talk signaling pathway in the nuclear receptor superfamily, it may also provide us with a new strategy to modulate ER function in the breast cancer cells.
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PMID:Modulation of estrogen receptor-mediated transactivation by orphan receptor TR4 in MCF-7 cells. 1184 90

To develop compounds that are antagonists on ER(alpha), but not ER(beta), we have added basic side-chains typically found in nonsteroidal antiestrogens to pyrazole compounds that bind with much higher affinity to ER(alpha) than to ER(beta). In this way we have developed basic side-chain pyrazoles (BSC-pyrazoles) that are high affinity, potent, selective antagonists on ER(alpha). These BSC-pyrazoles are themselves inactive on ER(alpha) and ER(beta), and they antagonize E2 stimulation by ER(alpha) only. We investigated seven basic side-chain substituents on various alkyl-triaryl-substituted pyrazoles, and the most ER(alpha)-selective compound was methyl-piperidino-pyrazole (MPP). ER(alpha)-selective antagonism was observed on diverse reporter-promoter gene constructs containing estrogen response elements that are consensus, nonconsensus (pS2), or comprised of multiple half-estrogen response elements (NHERF/EBP50) and on genes in which ER works indirectly by tethering to other DNA-bound proteins (TGF(beta)3). In contrast to these BSC-pyrazoles, the antiestrogens trans-hydroxytamoxifen, raloxifene, and ICI 182,780 suppress E2 activity via both ER(alpha) and ER(beta). The most effective BSC-pyrazole, MPP, fully antagonized E2 stimulation of pS2 mRNA in MCF-7 breast cancer cells, consistent with the fact that these cells contain almost exclusively ER(alpha). These compounds should be useful in studying the biological functions of ER(alpha) and ER(beta) and in selectively blocking responses that are mediated through ER(alpha).
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PMID:Antagonists selective for estrogen receptor alpha. 1186 16

Hormone-activated ERs (ERalpha and ERbeta) bind with high affinity to specific DNA sequences, estrogen response elements (EREs), located within the regulatory regions of target genes. Once considered to function solely as receptor tethers, there is an increasing amount of recent evidence to suggest that the sequence of the ERE can influence receptor activity. In this study, we have performed a systematic analysis of the role of different EREs in ER pharmacology. Specifically, by measuring ER activity on the vitellogenin A2, complement 3 gene, pS2, and lactoferrin EREs, we demonstrate that the activities of E2 and xenoestrogen ligands through ERalpha and ERbeta are significantly influenced by the nature of the response element. Using a series of ERalpha and ERbeta interacting peptides that contain the coactivator-binding motif LXXLL, we show that the type of ERE with which the receptor associates regulates the structure of the coactivator pocket on ER. Furthermore, using a novel ELISA developed to measure ER-coactivator interactions revealed that these different conformational states of ERalpha and ERbeta are functionally relevant, as they dictate receptor coactivator binding preference. Together, these results indicate that the DNA response element is a key regulator of receptor structure and biological activity and suggest the ERE sequence influences the recruitment of coactivators to the ER at target gene promoters. We propose that DNA-induced alteration of protein structure and coregulator recruitment may serve as a universal regulatory component for differential gene expression by other nuclear hormone receptors and unrelated transcription factors.
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PMID:Allosteric regulation of estrogen receptor structure, function, and coactivator recruitment by different estrogen response elements. 1187 5

Intranasal administration of hormone replacement therapy presents an original plasma kinetic profile with transient estrogen levels giving rise to the concept of pulsed therapy. To further understand the molecular effects of this new therapy, we have compared the effects of pulsed and continuous estradiol treatments on two critical aspects of estradiol action: gene expression and cell proliferation. Cells were stimulated with estradiol as 1-h pulsed or 24-h continuous treatments at concentrations such that the 24-h exposure (concentration x time) was identical in both conditions. In MCF7 cells, the transcriptional activity of estrogen receptors (ER) on a transiently transfected responsive estrogen response element-luciferase reporter construct was shown to be drastically (approximately 10-fold) and similarly stimulated after both treatments. Moreover, the increased mRNA expression of three representative estradiol-sensitive genes (pS2, cathepsin D, progesterone receptor), evaluated by Northern blot, was identical after 1-h pulse with 7 nM estradiol or continuous treatment with 0.29 nM estradiol with the same kinetic profile over 48 h. Proliferation was quantified by a histomorphometric method on primary cultures of human normal breast cells from reduction mammoplasties and using a fluorescence DNA assay in six human breast cancer cell lines which were ER positive or negative. After a 7-day treatment period, estradiol had no effect on the proliferation of the three ER negative cell lines (BT20, MDA MB231, SK BR3) but significantly stimulated the proliferation of the normal cells and of the three tumoral hormone-sensitive cell lines (MCF7, T47D, ZR 75-1); both hormone treatments producing the same increases in cell growth. In conclusion, we have shown that the genomic or proliferative effects of estradiol were identical with pulsed or continuous treatments, thus indicating that estrogenic effects are not strictly related to concentrations but rather to total hormone exposure.
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PMID:Comparative activity of pulsed or continuous estradiol exposure on gene expression and proliferation of normal and tumoral human breast cells. 1206 83

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