Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04155 (pS2)
 1,234 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Estrogen-regulated gene expression is dependent on interaction of the estrogen receptor (ER) with the estrogen response element (ERE). We assessed the ability of the ER to activate transcription of reporter plasmids containing either the consensus vitellogenin A2 ERE or the imperfect pS2, vitellogenin B1, or oxytocin (OT) ERE. The A2 ERE was the most potent activator of transcription. The OT ERE was significantly more effective in activating transcription than either the pS2 or B1 ERE. In deoxyribonuclease I (DNase I) footprinting experiments, MCF-7 proteins protected A2 and OT EREs more effectively than the pS2 and B1 EREs. Limited protease digestion of the A2, pS2, B1, or OT ERE-bound receptor with V8 protease or proteinase K produced distinct cleavage products demonstrating that individual ERE sequences induce specific changes in ER conformation. Receptor interaction domains of glucocorticoid receptor interacting protein 1 and steroid receptor coactivator 1 bound effectively to the A2, pS2, B1, and OT ERE-bound receptor and significantly stabilized the receptor-DNA interaction. Similar levels of the full-length p160 protein amplified in breast cancer 1 were recruited from HeLa nuclear extracts by the A2, pS2, B1, and OT ERE-bound receptors. In contrast, significantly less transcriptional intermediary factor 2 was recruited by the B1 ERE-bound receptor than by the A2 ERE-bound receptor. These studies suggest that allosteric modulation of ER conformation by individual ERE sequences influences the recruitment of specific coactivator proteins and leads to differential expression of genes containing divergent ERE sequences.
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PMID:Allosteric modulation of estrogen receptor conformation by different estrogen response elements. 1143 12

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

We previously showed that (a) estrogen-related receptor alpha1 (ERRalpha1) down-modulates estrogen receptor (ER)-stimulated transcription in low ErbB2-expressing MCF-7 mammary carcinoma cells, and (b) ERRalpha and ErbB2 mRNA levels positively correlate in clinical breast tumors. We show here that ERRalpha1 represses ERalpha-mediated activation in MCF-7 cells because it failed to recruit the coactivator glucocorticoid receptor interacting protein 1 (GRIP1) when bound to an estrogen response element. In contrast, ERRalpha1 activated estrogen response element- and ERR response element-mediated transcription in ERalpha-positive, high ErbB2-expressing BT-474 mammary carcinoma cells, activation that was enhanced by overexpression of GRIP1. Likewise, regulation of the endogenous genes pS2, progesterone receptor, and ErbB2 by ERRalpha1 reflected the cell type-specific differences observed with our reporter plasmids. Importantly, overexpression of activated ErbB2 in MCF-7 cells led to transcriptional activation, rather than repression, by ERRalpha1. Two-dimensional PAGE of radiophosphate-labeled ERRalpha1 indicated that it was hyperphosphorylated in BT-474 relative to MCF-7 cells; incubation of these cells with anti-ErbB2 antibody led to reduction in the extent of ERRalpha1 phosphorylation. Additionally, mitogen-activated protein kinases (MAPK) and Akts, components of the ErbB2 pathway, phosphorylated ERRalpha1 in vitro. ERRalpha1-activated transcription in BT-474 cells was inhibited by disruption of ErbB2/epidermal growth factor receptor signaling with trastuzumab or gefitinib or inactivation of downstream components of this signaling, MAPK kinase/MAPK, and phosphatidylinositol-3-OH kinase/Akt, with U0126 or LY294002, respectively. Thus, ERRalpha1 activities are regulated, in part, via ErbB2 signaling, with ERRalpha1 likely positively feedback-regulating ErbB2 expression. Taken together, we conclude that ERRalpha1 phosphorylation status shows potential as a biomarker of clinical course and antihormonal- and ErbB2-based treatment options, with ERRalpha1 serving as a novel target for drug development.
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PMID:Estrogen-related receptor alpha1 transcriptional activities are regulated in part via the ErbB2/HER2 signaling pathway. 1725 47

Steroid receptor coactivators (SRCs), such as glucocorticoid receptor interacting protein 1 (GRIP1) are recruited to the DNA-bound nuclear receptors (NRs) and are also shown to enhance the gene transactivation by other transcription factors. In contrast to the two other members of the SRC family, SRC-1 and SRC-3/amplified in breast cancer 1, SRC-2/GRIP1 is regulated by the cAMP-dependent protein kinase [protein kinase A (PKA)] that stimulates its ubiquitination and degradation. In this report we demonstrate that COS-1 and MCF-7 cells treated with cAMP-elevating agents and 8-para-chlorophenylthio-cAMP for short periods of time showed an increase in GRIP1 coactivator function, whereas prolonged stimulation of the cAMP/PKA pathway led to a decline in GRIP1-mediated activation and protein levels. Furthermore, MCF-7 breast cancer cells were subjected to chromatin immunoprecipitation assays after stimulation of the cAMP/PKA pathway. cAMP/PKA initiated a rapid recruitment of GRIP1 to the endogenous estrogen receptor (ER)-alpha target pS2 gene promoter. In contrast to the estradiol-induced recruitment of GRIP1 to pS2, we observed an additional increase in GRIP1 recruitment on inhibition of the proteasome, suggesting that inhibition of GRIP1 degradation leads to accumulation at the pS2. Real-time PCR experiments confirmed that cAMP/PKA enhanced the expression of pS2. Moreover, confocal imaging of COS-1 cells transfected with yellow fluorescent protein-GRIP1 and cyan fluorescent protein-ERalpha revealed that PKA led to redistribution and colocalization of yellow fluorescent protein-GRIP1 and cyan fluorescent protein-ERalpha in subnuclear foci. In conclusion, these results suggest that activation of the cAMP/PKA pathway stimulates recruitment of GRIP1 to an ER-responsive gene promoter. The initial stimulation of GRIP1 coactivator function is followed by an increased turnover and subsequent degradation of GRIP1 protein.
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PMID:Recruitment of coactivator glucocorticoid receptor interacting protein 1 to an estrogen receptor transcription complex is regulated by the 3',5'-cyclic adenosine 5'-monophosphate-dependent protein kinase. 1849 56