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Query: EC:2.5.1.18 (
glutathione S-transferase
)
22,582
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Both
estrogen receptor alpha
(ERalpha) and the recently identified ERbeta are nuclear receptors that are activated by estrogen. It was reported that ERalpha and ERbeta form heterodimers. Here, we show that they activate transcription independently rather than synergistically via estrogen response elements (ERE). To show the cross-talk between ERalpha and ERbeta, we utilized dominant negative mutants of ERs constructed by C-terminal truncation. Interestingly, ERalpha1-530 inhibited transactivation not only by ERalpha but also by ERbeta, whereas ERbeta1-481 inhibited transactivation by ERalpha as well as by ERbeta. The
GST
pull-down assay also demonstrated the cross-interaction of these mutants with wild-type ERalpha and ERbeta. Thus, we found dominant negative mutants that block both ERalpha and ERbeta signaling pathways.
...
PMID:Cross-inhibition of both estrogen receptor alpha and beta pathways by each dominant negative mutant. 951 44
We and others have demonstrated that
estrogen receptor alpha
(ERalpha) and p53, two important regulatory proteins in breast cancer, bind to each other. In this report, using the
glutathione S-transferase
pull-down methodology, we show the ligand-independent interaction of ERalpha with the NH2-terminal region of p53, a region known to bind the p300 and human double minute-2 (hdm2) regulatory factors. Furthermore, we have demonstrated that ERalpha is capable of binding hdm2 directly. The interaction of ERalpha and p53 does not interfere with the binding between p53 and hdm2; rather, these proteins form a ternary complex. The effect of ERalpha on the p53-hdm2 regulatory loop has been examined. Our results indicate that ERalpha protects p53 from being deactivated by hdm2. It is evident from these investigations that the ligand-independent protection of p53 by ERalpha is a novel role for this protein in addition to its classic regulatory function as a ligand-inducible transcription factor. This study also describes a new mechanism of cellular regulation of p53 activity.
...
PMID:Estrogen receptor protects p53 from deactivation by human double minute-2. 1076 63
The human estrogen receptor-related receptor (ERRalpha1, NR3B1a) was shown to bind a steroidogenic factor binding element (SFRE), TCAAGGTCATC, 26 base pairs upstream from the estrogen response element (ERE) of the human lactoferrin gene promoter. A mutation made at SFRE significantly reduced estrogen-dependent transcription from the lactoferrin ERE in human endometrial cells. In this study, we demonstrated that ERRalpha1 binds both SFRE and ERE elements and constitutively transactivates the lactoferrin gene promoter. In DNase I footprinting protection analysis, both SFRE and ERE regions were protected by
glutathione S-transferase
-ERRalpha1 fusion protein. The receptor formed two protein-DNA complexes with either SFRE or ERE in electrophoresis mobility shift assay. Homodimerization of ERRalpha1 was confirmed with the mammalian two-hybrid system. ERRalpha1 activates reporter constructs containing various types of estrogen response elements in endometrial and non-endometrial cells in transient transfection experiments. Overexpressing the coactivator, SRC1a or GRIP1, further enhances ERRalpha1-induced transcriptional activity. We demonstrated that the AF2 domain of ERRalpha1 is essential for the transactivation function and that deletion or mutation at this region abrogates the activation capability. Protein-protein interaction between the SRC1a and ERRalpha1 C terminus was confirmed with a
GST
glutathione S-transferase
"pull-down" assay. When comparing ERRalpha1 and the
estrogen receptor alpha
(ERalpha) in many of the experiments, we found that ERalpha can also bind SFRE of the lactoferrin gene and transactivate the promoter activity in a ligand-dependent manner. The present study demonstrated that ERRalpha1 binds similar DNA elements as ERalpha and confers its transactivation function constitutively. Therefore, ERRalpha1 may actively modulate the estrogen response of lactoferrin gene as well as other estrogen-responsive genes.
...
PMID:Estrogen receptor-related receptor alpha 1 interacts with coactivator and constitutively activates the estrogen response elements of the human lactoferrin gene. 1077 8
Overexpression of the oncoprotein MDM2, a negative feedback regulator of p53, is often observed in breast cancer tissue and cell lines, particularly in those which express
estrogen receptor alpha
(ERalpha). In this study, we report a novel function of MDM2, i.e., as a positive regulator of ERalpha. This function does not involve p53. MDM2 overexpressing clones derived from the breast cancer cell line, MCF-7 cells, showed a remarkable growth advantage only in estradiol supplemented conditions, and this profile coincided with increased transcriptional activity of ERalpha in these cells. Though p53 has been reported to be an inhibitor of ERalpha function, p53 protein in MDM2 overexpressing clones was more abundant than in the parental cells. When ERalpha was exogenously expressed in p53-null cells, its activity was enhanced by coexpression of MDM2. Mammalian two-hybrid assays and
GST
pull-down assays indicated that MDM2 could interact with ERalpha. These results indicate that MDM2 is a direct activator of ERalpha function, and suggest such a role for MDM2 in ERalpha-positive breast cancer.
...
PMID:MDM2 enhances the function of estrogen receptor alpha in human breast cancer cells. 1117 89
Activated
estrogen receptor alpha
(ERalpha) modulates transcription triggered by the transcription factor activator protein-1 (AP-1), which consists of Jun-Jun homodimers and Jun-Fos heterodimers. Previous studies have demonstrated that the interference occurs without binding of ERalpha to DNA but probably results from protein.protein interactions. However, involvement of a direct interaction between ERalpha and AP-1 is still debated. Using
glutathione S-transferase
pull-down assays, we demonstrated that ERalpha bound directly to c-Jun and JunB but not to FOS family members, in a ligand-independent manner. The interaction could occur when c-Jun was bound onto DNA, as shown in a protein-protein-DNA assay. It implicated the C-terminal part of c-Jun and amino acids 259-302 present in the ERalpha hinge domain. ERalpha but not an ERalpha mutant deleted of amino acids 250-303 (ER241G), also associated with c-Jun in intact cells, in the presence of estradiol, as shown by two-hybrid and coimmunoprecipitation assays. We also show that ERalpha, c-Jun, and the p160 coactivator GRIP1 can form a multiprotein complex in vitro and in intact cells and that the ERalpha.c-Jun interaction could be crucial for the stability of this complex. VP16-ERalpha and c-Jun, which both interact with GRIP1, had synergistic effect on GAL4-GRIP1-induced transcription in the presence of estradiol, and this synergistic effect was not observed with the ERalpha mutant VP16-ER241G or when c-Fos, which bound GRIP1 but not ERalpha, was used instead of c-Jun. Finally, ER241G was inefficient for regulation of AP-1 activity, and an ERalpha truncation mutant encompassing the hinge domain had a dominant negative effect on ERalpha action. These results altogether demonstrate that ERalpha can bind to c-Jun in vitro and in intact cells and that this interaction, by stabilizing a multiprotein complex containing p160 coactivator, is likely to be involved in estradiol regulation of AP-1 responses.
...
PMID:Characterization of the physical interaction between estrogen receptor alpha and JUN proteins. 1147 71
The reproductive and developmental effects of 17beta-estradiol (E2) and methoxychlor (MXC) observed in treated rodents appear to be linked to some unique but also overlapping patterns of gene expression. The MXC metabolite 2,2-bis(p-hydroxyphenyl)-1,1,1-trichloroethane (HPTE) was previously shown to have selective agonist activity through
estrogen receptor alpha
(ERalpha) and antagonist activity through ERbeta and androgen receptor (AR). To discover gene families regulated by HPTE and E2, and to characterize similarities and differences in patterns of gene expression induced by these selective ER ligands, we analyzed tissues from mice treated for 3 days with a combined treatment of E2 and HPTE (E2 + HPTE), or the antiandrogen flutamide (FLU). RNA from uteri and ovaries was analyzed with cDNA microarrays and real-time RT-PCR. Results indicate that HPTE and E2 acted similarly to regulate most gene families in the uterus, which expresses predominantly ERalpha. However, in both the uterus and the ovary, there were a few genes that displayed differential patterns of gene regulation by E2 or HPTE treatment, presumably through ERbeta, AR, or other unidentified pathways. In the uterus, progesterone receptor, ERalpha, AR, insulin-like growth factor 1, insulin-like growth factor binding protein 5, and clusterin mRNAs were significantly reduced with both E2 or HPTE treatments, whereas cathepsin B was induced. Conversely, in the ovary, induction of cathepsin B by E2 was reversed after cotreatment with HPTE, and ERbeta expression was induced similarly by HPTE and FLU but not by E2. In addition, E2 uniquely regulated glutathione peroxidase 3,
glutathione S-transferase
, and cytochrome P450 17alpha-hydroxylase, with no effect of HPTE or FLU treatments. This analysis demonstrated several gene families that appear to be regulated in a ligand-specific pattern, which may explain the unique but overlapping reproductive tissue pathologies following exposure to E2 and MXC.
...
PMID:Differential gene expression in response to methoxychlor and estradiol through ERalpha, ERbeta, and AR in reproductive tissues of female mice. 1150 43
Several fish proteins exhibit compromised function at temperatures outside of their normal physiological range. In this study, the effect of temperature on the ligand binding and the transactivation abilities of the rainbow trout estrogen receptor (rtER) and human
estrogen receptor alpha
(hER alpha) were examined. Saturation analysis and gene expression assays, using
GST
-ER and Gal4-ER fusion proteins consisting of the D, E and F domains of human (hER alpha def) and rainbow trout (rtERdef) receptors, show that
GST
-rtERdef E2 binding affinity and transactivation ability decrease with increasing temperature. A comparison of the amino acid sequence differences between their ligand binding pockets identified two conservative amino acid residue substitutions in rtER (M317, I496) and hER alpha (L349, M528). The effect of these substitutions on ligand binding and transactivation were examined by constructing reciprocal mutants, which effectively exchanged the binding pockets between rtER and hER alpha. The rtERdef M317L:I496M double mutant exhibited increased E2 binding affinity and transactivation ability at higher temperatures, and displayed hER alpha phenotypic behavior for the phytoestrogen, coumestrol. The hER alpha def L349M:M528I double mutant also exhibited a modest trend towards adopting the rtER phenotype. These studies demonstrate that conservative changes in residue hydrophobicity and volume can significantly affect ER ligand binding and transactivation ability in a temperature-dependent manner. The lack of a complete exchange of phenotypes between rtER and hER alpha indicates that factors outside of the ligand binding pocket are also involved.
...
PMID:Reciprocal mutagenesis between human alpha(L349, M528) and rainbow trout (M317, I496) estrogen receptor residues demonstrates their importance in ligand binding and gene expression at different temperatures. 1160 33
Mass spectrometry was used to identify the sites of covalent attachment of [(14)C]-17alpha-bromoacetamidopropylestradiol ([(14)C]17BAPE(2), an estradiol agonist) to the ligand-binding domain (LBD) of mouse
estrogen receptor alpha
(ERalpha). A
glutathione S-transferase
(
GST
)-LBD chimera protein was overexpressed in Escherichia coli, using a vector encoding
GST
fused with a C-terminal portion of mouse ERalpha (Ser(313)-Ile(599)), via a sequence enclosing a thrombin cleavage site (located 14 amino acids ahead of Ser313). [(14)C]17BAPE(2) covalent labeling experiments were carried out on the
GST
-LBD chimera immobilized on glutathione-Sepharose. After thrombin cleavage of the chimeric LBD, two major [(14)C]17BAPE(2)-labeled species of 34 ( approximately 75%) and 30 kDa ( approximately 25%) were detected by SDS-PAGE and autoradiography. Their identity was assessed by matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS): two main signals were consistent with the mass of the full-length (Ser(313)-Ile(599)) and truncated LBD (Ser(313)-Ala(573)), both comprising the extra 14 N-terminal amino acids and covalently bound [(14)C]17BAPE(2) (via HBr elimination). A purified (14)C-labeled LBD preparation was trypsinized to identify the covalent attachment sites of 17BAPE(2). HPLC of tryptic fragments only revealed two discrete and practically equivalent radioactive fractions. MALDI-TOF MS analysis of these two fractions showed only two signals which exactly matched the molecular masses of the [(14)C]17BAPE(2)-alkylated Cys(534)Lys(535) and Cys(421)-Arg(438) peptides, respectively. Hydrolysis of the second (14)C-labeled fraction by Staphylococcus aureus V8 Glu-C endoproteinase generated signals typical of alkylated the Cys(421)-Glu(423) tripeptide. We concluded that Cys421 and Cys534 were equivalent alternative covalent attachment sites of 17BAPE(2) on the LBD. These biochemical data were interpreted using the crystallographic structures of estradiol-LBD and raloxifene- or 4-hydroxytamoxifen-LBD complexes. The covalent attachment to Cys421, Cys534, or both could be interpreted according to the starting structure. Various hypotheses based on the biochemical results and molecular modeling simulations are discussed, with the likely involvement of dynamic interconversion between multiple conformational states of the LBD-17BAPE(2) complex.
...
PMID:Identification by MALDI-TOF mass spectrometry of 17 alpha-bromoacetamidopropylestradiol covalent attachment sites on estrogen receptor alpha. 1250 Dec
The truncated estrogen receptor product-1 (TERP-1, or TERP) is a pituitary-specific isoform of
estrogen receptor alpha
(ERalpha), and its expression is regulated by estrogen. TERP modulates the transcriptional activity of ERalpha but has no independent effect on transcription of estrogen-response element-containing promoters. At low concentrations, TERP stimulates ERalpha transcriptional activity in transient transfection assays. At TERP concentrations equal to or greater than full-length ERalpha, TERP forms dimers with ERalpha and reduces both ligand-dependent and -independent transcription. A dimerization mutant of TERP, TERP L509R, stimulated ERalpha transcription at all concentrations. We hypothesized that TERP stimulates ERalpha transcriptional activity by titrating suppressors of ERalpha activity. We found that repressor of estrogen receptor activity (REA), originally isolated from human breast cancer cells, is present in mouse pituitary gonadotrope cell lines. Levels of REA vary slightly throughout the rat reproductive cycle, but TERP mRNA and protein vary much more dramatically. In transfection experiments, REA suppressed ERalpha transcriptional activity, and TERP L509R was able to alleviate transcriptional suppression by REA. In
glutathione S-transferase
pull-down assays, TERP bound to REA more efficiently than did ERalpha at equivalent concentrations, suggesting that REA will preferentially bind to TERP. Our findings suggest that the stimulation of pituitary ERalpha activity by low concentrations of TERP can occur by titration of corepressors such as REA.
...
PMID:Truncated estrogen receptor product-1 stimulates estrogen receptor alpha transcriptional activity by titration of repressor proteins. 1287 3
BACKGROUND: Retinoic acid receptors (RARs) are ligand-regulated transcription factors controlling cellular proliferation and differentiation. Receptor-interacting proteins such as corepressors and coactivators play a crucial role in specifying the overall transcriptional activity of the receptor in response to ligand treatment. Little is known however on how receptor activity is controlled by intermediary factors which interact with RARs in a ligand-independent manner. RESULTS: We have identified the promyelocytic leukemia zinc finger protein (PLZF), a transcriptional corepressor, to be a RAR-interacting protein using the yeast two-hybrid assay. We confirmed this interaction by
GST
-pull down assays and show that the PLZF N-terminal zinc finger domain is necessary and sufficient for PLZF to bind RAR. The RAR ligand binding domain displayed the highest affinity for PLZF, but corepressor and coactivator binding interfaces did not contribute to PLZF recruitment. The interaction was ligand-independent and correlated to a decreased transcriptional activity of the RXR-RAR heterodimer upon overexpression of PLZF. A similar transcriptional interference could be observed with the
estrogen receptor alpha
and the glucocorticoid receptor. We further show that PLZF is likely to act by preventing RXR-RAR heterodimerization, both in-vitro and in intact cells. CONCLUSION: Thus RAR and PLZF interact physically and functionally. Intriguingly, these two transcription factors play a determining role in hematopoiesis and regionalization of the hindbrain and may, upon chromosomal translocation, form fusion proteins. Our observations therefore define a novel mechanism by which RARs activity may be controlled.
...
PMID:PLZF is a negative regulator of retinoic acid receptor transcriptional activity. 1452 15
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