EC:2.7.7.6 - FACTA Search

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Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High-level expression of the full-length human retinoic acid receptor (RAR) alpha and the DNA binding domain of the RAR in Escherichia coli was achieved by using a T7 RNA polymerase-directed expression system. After induction, full-length RAR protein was produced at an estimated level of 20% of the total bacterial proteins. Both intact RAR molecules and the DNA binding domain bind to the cognate DNA response element with high specificity in the absence of retinoic acid. However, this binding is enhanced to a great extent upon the addition of eukaryotic cell extracts. The factor responsible for this enhancement is heat-sensitive and forms a complex with RAR that binds to DNA and exhibits a distinct migration pattern in the gel-mobility-shift assay. The interaction site of the factor with RAR is localized in the 70-amino acid DNA binding region of RAR. The hormone binding ability of the RAR alpha protein was assayed by a charcoal absorption assay and the RAR protein was found to bind to retinoic acid with a Kd of 2.1 x 10(-10) M.
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PMID:Characterization of DNA binding and retinoic acid binding properties of retinoic acid receptor. 185 Aug 32

The translocation t(15;17)(q22;q21) is seen exclusively in patients with acute promyelocytic leukemia (APL) and in the promyelocytic blast crisis of chronic myeloid leukemia (CML). This translocation juxta-poses the promyelocytic leukemia (PML) gene on chromosome 15 and the retinoic acid receptor-alpha (RARA) gene on chromosome 17, resulting in the formation of a chimeric mRNA transcript. We describe a patient with the microgranular variant form of APL, with no detectable cytogenetic abnormality of either chromosomes 15 or 17, who nevertheless had juxtaposition of PML and RARA genes and expressed a chimeric transcript. Conventional cytogenetics showed the karyotype 46,XY,d-er(3)t(3;8)(p25;q12). Fluorescent in situ hybridization (FISH) with paints for chromosomes 8, 15, and 17 confirmed the presence of structurally intact chromosomes 15 and 17 and trisomy for chromosome 8q. Nevertheless, FISH using cosmid probes for PML and RARA showed their juxtaposition on one chromosome 15 homolog. Both genes were also present on their normal homologs; in addition, part of the RARA gene was still present on the remaining chromosome 17. DNA analysis by Southern blotting, performed with a variety of probes including PML, RARA and retinoic acid receptor-beta (RARB), showed a rearrangement in PML. Reverse transcriptase polymerase chain reaction (RT-PCR) confirmed the existence of hybrid transcripts of 276, 455 bp and 623 bp, from PML-RARA on the der(15) chromosome, consistent with alternate exon splicing of the long form of the transcript occurring in 50% to 60% of patients with APL. Our results show that APL patients with cytogenetically normal chromosomes 15 and 17 may, nevertheless, have involvement of both PML and RARA genes defining a subgroup of APL, t(15;17)-negative/PML-RARA-positive which is analogous to Philadelphia chromosome-negative/BCR-ABL-positive CML. In this case, the presence of chimeric transcripts suggests that treatment with all-trans RA may be warranted in APL, even in the absence of detectable cytogenetic change, showing the usefulness of RT-PCR or FISH to aid diagnosis.
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PMID:Interstitial insertion of retinoic acid receptor-alpha gene in acute promyelocytic leukemia with normal chromosomes 15 and 17. 818 Mar 90

The eukaryotic TATA-binding protein TBP, which is required for transcription by RNA polymerase II, is tightly associated with a particular set of factors in the TFIID complex, and as such provides a target for transcriptional regulation exerted by upstream factors. An embryonic carcinoma (EC) cell-specific activity like that of the viral factor E1A has been implicated in the mediation of transactivation from the retinoic acid receptor to human TBP, but yeast TBP cannot perform this function. Using TBP mutants with an altered TATA-box-binding specificity, we show here that yeast TBP can mediate transcriptional activation in mammalian cells and that its inability to convey retinoic acid-dependent transactivation in EC cells is due to specific residues in its core region. These residues preclude a functional association with the cellular E1A-like activity. TBP is thus a target for retinoic acid-dependent transactivation in EC cells by providing a surface for interaction with the EC cell-specific E1A-like activity.
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PMID:Residues in the TATA-binding protein required to mediate a transcriptional response to retinoic acid in EC cells. 841 15

Unliganded thyroid hormone receptor (TR) functions as a transcriptional repressor of genes bearing thyroid hormone response elements in their promoters. Binding of hormonal ligand to the receptor releases the transcriptional silencing and leads to gene activation. Previous studies showed that the silencing activity of TR is located within the C-terminal ligand-binding domain (LBD) of the receptor. To dissect the role of the LBD in receptor-mediated silencing, we used a cell-free transcription system containing HeLa nuclear extracts in which exogenously added unliganded TRbeta repressed the basal level of RNA polymerase II-driven transcription from a thyroid hormone response element-linked template. We designed competition experiments with a peptide fragment containing the entire LBD (positions 145 to 456) of TRbeta. This peptide, which lacks the DNA-binding domain, did not affect basal RNA synthesis from the thyroid hormone response element-linked promoter when added to a cell-free transcription reaction mixture. However, the addition of the LBD peptide to a reaction mixture containing TRbeta led to a complete reversal of receptor-mediated transcriptional silencing in the absence of thyroid hormone. An LBD peptide harboring point mutations, which severely impair receptor dimerization, also inhibited efficiently the silencing activity of TR, indicating that the relief of repression by the LBD was not due to the sequestration of TR or its heterodimeric partner retinoid X receptor into inactive homo- or heterodimers. We postulate that the LBD peptide competed with TR for a regulatory molecule, termed a corepressor, that exists in the HeLa nuclear extracts and is essential for efficient receptor-mediated gene repression. We have identified the region from positions 145 to 260 (the D domain) of the LBD as a potential binding site of the putative corepressor. We observed further that a peptide containing the LBD of retinoic acid receptor (RAR) competed for TR-mediated silencing, suggesting that the RAR LBD may bind to the same corepressor activity as the TR LBD. Interestingly, the RAR LBD complexed with its cognate ligand, all-trans retinoic acid, failed to compete for transcriptional silencing by TRbeta, indicating that the association of the LBD with the corepressor is ligand dependent. Finally, we provide strong biochemical evidence supporting the existence of the corepressor activity in the HeLa nuclear extracts. Our studies demonstrated that the silencing activity of TR was greatly reduced in the nuclear extracts preincubated with immobilized, hormone-free glutathione S-transferase-LBD fusion proteins, indicating that the corepressor activity was depleted from these extracts through protein-protein interactions with the LBD. Similar treatment with immobilized, hormone-bound glutathione S-transferase-LBD, on the other hand, failed to deplete the corepressor activity from the nuclear extracts, indicating that ligand binding to the LBD disrupts its interaction with the corepressor. From these results, we propose that a corepressor binds to the LBD of unliganded TR and critically influences the interaction of the receptor with the basal transcription machinery to promote silencing. Ligand binding to TR results in the release of the corepressor from the LBD and triggers the reversal of silencing by allowing the events leading to gene activation to proceed.
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PMID:Transcriptional silencing by unliganded thyroid hormone receptor beta requires a soluble corepressor that interacts with the ligand-binding domain of the receptor. 862 57

Retinoids play a fundamental role in regulating normal cell proliferation and differentiation. The most spectacular effects of retinoids in vitro can be observed with embryonal carcinoma (EC) cells that can be induced to differentiate into endodermal, mesodermal and neuroectodermal lineages. An early and essential step in the differentiation process is the activation of the retinoic acid receptor-beta 2 (RAR beta 2) promoter that requires a co-operation between RAR, the EC-cell specific adenovirus early gene product 1A (E1A)-like activity and the TATA-binding protein (TBP). In differentiated cells, this signalling pathway can be mimicked by ectopic expression of the adenoviral E1A protein. Here we show that E1A13S but not E1A12S augments the level of transcription. Analysis of the binding kinetics of E1A13S to TBP by the surface plasmon resonance (SPR) technique reveals that the affinity of TBP for a consensus TATA-box sequence is significantly and specifically increased by E1A13S only. Intriguingly, a specific interaction can only be obtained with crude TBP overexpressed in HeLa cells via vaccinia virus as opposed to bacterially expressed TBP, suggesting a cofactor requirement for the interaction. Co-immunoprecipitation experiments show that E1A13S is an integral component of the RNA polymerase II-specific TBP-containing complex in adenovirus transformed embryonal kidney 293 cells. Taken together the results suggest that E1A13S mediates transcriptional activation by providing a physical bridge between TBP/transcription factor IID (TFIID) and retinoic acid receptor.
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PMID:Retinoid-dependent transcription: the RAR/RXR-TBP-EIA/EIA-LA connection. 897 43

Vitamin A and D play an important role in many biological processes including cell differentiation, proliferation and bone metabolism. These effects are believed to be mediated by specific nuclear receptors such as retinoic acid receptors (RARs) or vitamin D receptor (VDR), that regulate the transcription of a particular set of target genes. Hetero-dimers of RAR or VDR to retinoid X receptors (RXRs) bind target enhancer elements in their gene promoters. The target enhancer elements are referred as RA response elements (RAREs) or vitamin D response elements (VDREs), and composed of two hexamer core motife. DNA-bound RAR/VDR control transcription in a ligand-binding dependent way in co-operation with a multiprotein complex containing RNA polymerase II and a series of auxiliary factors, TFIIA, B, D, E, F and H. During process of ligand-induced transactivation by nuclear receptors, nuclear coactivators interacting with the AF-2 including ligand binding domain (LBD) seems to be involved. Several transcriptional coactivators and corepressors have been recently identified, and their function is currently under investigation.
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PMID:[Gene structure and transcriptional regulation of vitamin A, D binding proteins and nuclear receptors]. 1054 Aug 75

Short interspersed repeats of the Alu family located in promoters of some human genes contain high-affinity binding sites for thyroid hormone receptor, retinoic acid receptor and estrogen receptor. The standard binding sites for the receptors represent variants of duplicated AGGTCA motif with different spacing and orientation (direct, DR, or inverted, IR), and Alu sequences were found to have functional DR-4, DR-2 or variant IR-3/IR-17 elements. In this study we analyzed distribution and abundance of the elements in a set of human genomic sequences from GenBank and their association with Alu repeats. Our results indicate that a major fraction of potentially active DR-4, DR-2 and variant IR-3/IR-17 elements in the genes is located within Alu repeats. Alu-associated DR-2 elements are conserved in primate evolution. However, very few Alu have potential DR-3 glucocorticoid-response elements. Gel-shift experiments with the probe (AUB) corresponding to the consensus Alu sequence just upstream of the RNA polymerase III promoter B-box and containing duplicated AGGTCA motif indicate that the probe interacts in a sequence-specific manner with human nuclear proteins which bind to standard IR-0, DR-1, DR-4 or DR-5 elements. The AUB sequence was also able to promote thyroid hormone-dependent trans-activation of a reporter gene. The results support the view that Alu retroposons played an important role in evolution of regulation of the primate gene expression by nuclear hormone receptors.
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PMID:Association of some potential hormone response elements in human genes with the Alu family repeats. 1054 36

Activation of phosphoenolpyruvate carboxykinase (PEPCK) gene transcription in response to all-trans-retinoic acid (RA) or a glucocorticoid such as dexamethasone (Dex) requires a distinct arrangement of DNA-response elements and their cognate transcription activators on the gene promoter. Two of the accessory factor-binding elements involved in the Dex response (gAF1 and gAF3) coincide with the DNA-response elements involved in the RA response. We demonstrate here that the combination of Dex/RA has a synergistic effect on endogenous PEPCK gene expression in rat hepatocytes and H4IIE hepatoma cells. Reporter gene studies show that the gAF3 element and one of the two glucocorticoid receptor-binding elements (GR1) are most important for this effect. Chromatin immunoprecipitation assays revealed that when H4IIE cells were treated with Dex/RA, ligand-activated retinoic acid receptors (retinoic acid receptor/retinoid X receptor) and glucocorticoid receptors are recruited to this gene promoter, as are the transcription coregulators p300, CREB-binding protein, p/CIP, and SRC-1. Notably, the recruitment of p300 and RNA polymerase II to the PEPCK promoter is increased by the combined Dex/RA treatment compared with Dex or RA treatment alone. The functional importance of p300 in the Dex/RA response is illustrated by the observation that selective reduction of this coactivator, but not that of CREB-binding protein, abolishes the synergistic effect in H4IIE cells.
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PMID:The synergistic effect of dexamethasone and all-trans-retinoic acid on hepatic phosphoenolpyruvate carboxykinase gene expression involves the coactivator p300. 1516 31

RNA polymerase II general transcription factor TFIID is a macromolecular complex comprising the TATA-binding protein, TBP and 13-14 evolutionary conserved TBP-associated factors, TAFs. Although genetic experiments have shown that TAFs are essential for cell cycle progression in yeast and in rapidly proliferating vertebrate cells in vitro, new experiments indicate they may be dispensible in specific developmental and physiological processes. Moreover, the TAF4 subunit of TFIID negatively regulates proliferation by inhibiting activation of the TGFbeta signalling pathway by its paralogue TAF4b. TAF4 is however essential in the retinoic acid and cAMP signalling pathways acting as a cofactor for CREB and the retinoic acid receptor, but is a negative regulator of the ATF7 transcription factor.
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PMID:New insights into TAFs as regulators of cell cycle and signaling pathways. 1620 17

In eukaryotic cells, the Ccr4-Not complex can regulate mRNA metabolism at various levels. Previously, we showed that promoter targeting of the CNOT2 subunit resulted in strong repression of RNA polymerase II transcription, which was sensitive to the HDAC (histone deacetylase) inhibitor, trichostatin A [Zwartjes, Jayne, van den Berg and Timmers (2004) J. Biol. Chem. 279, 10848-10854]. In the present study, the cofactor requirement for CNOT2-mediated repression was investigated. We found that coexpression of SMRT (silencing mediator for retinoic acid receptor and thyroid-hormone receptor) or NCoR (nuclear hormone receptor co-repressor) in combination with HDAC3 (or HDAC5 and HDAC6) augmented the repression by CNOT2. This repressive effect is mediated by the conserved Not-Box, which resides at the C-terminus of CNOT2 proteins. We observed physical interactions of CNOT2 with several subunits of the SMRT/NCoR-HDAC3 complex. Our results show that the SMRT/NCoR-HDAC3 complex is a cofactor of CNOT2-mediated repression and suggest that transcriptional regulation by the Ccr4-Not complex involves regulation of chromatin modification.
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PMID:Involvement of the SMRT/NCoR-HDAC3 complex in transcriptional repression by the CNOT2 subunit of the human Ccr4-Not complex. 1671 23

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