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Query: UNIPROT:P51532 (transcriptional activator)
 6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Four DNase I hypersensitive sites characterize the human beta-globin Dominant Control Region (DCR) providing position independent, high levels of erythroid specific expression to linked homologous and heterologous genes when introduced into cultured cells or in transgenic mice. We have delineated the hypersensitive site located 10.5 kbp upstream of the epsilon-globin gene by short range DNase I sensitivity mapping to a 600 bp region. Using transgenic mice and MEL cells the functional part of this region was further mapped to a 300 bp central core, which provides position independent, high level expression. It contains a number of ubiquitous and erythroid specific protein binding sites, including the previously described factors NF-E1 (GF1) and NF-E2. The latter binds to a dimer of the consensus binding sequence for jun/fos. The presence of this sequence is required for the function of the element, but single or multimerized copies of this site failed to give position independent, high levels of expression in transgenic mice or MEL cells. We therefore conclude that a combination of factor binding sites is necessary to allow site 3 to function as a strong transcriptional activator, resulting in position independent expression of the beta-globin gene.
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PMID:Detailed analysis of the site 3 region of the human beta-globin dominant control region. 235 65

GATA-1 is a cys-2/cys-2 zinc finger transcriptional activator that is required for erythrocyte development in chimeric mice and contributes to the expression of all erythroid genes studied to date, including the erythropoietin receptor, glycophorin B, and porphobilinogen deaminase genes. Transactivation by GATA-1 is mediated by either an amino-terminal acidic domain, R1, or an independent adjacent domain, R2, and may involve the coordinate action of cofactors (NF-E2, EKLF, and Sp1) which bind adjacent cis-elements. To directly assess mechanisms of transactivation, we have developed an efficient cell-free transcription system using recombinant human GATA-1 (rhGATA-1) expressed in SF9 cells. Levels of baculoviral expression of GATA-1 were > or = 200-fold higher than endogenous levels in erythroid K562 cells. Factors from each source were essentially equivalent in molecular weight and DNA binding properties, and highly similar in phosphotryptic peptide composition. Notably, DNA binding was inhibited following treatment with alkaline phosphatase. In both SF9 and K562 cells, GATA-1 occurred largely as heterogeneous multimers, thus complicating its isolation by standard procedures. However, significant purification of this factor (> or = 100-fold; > or = 75% purity) was accomplished via DNA affinity chromatography. In cell-free assays, this rhGATA-1 was shown to be remarkably active in transactivating model erythroid promoters. This work establishes an efficient in vitro system for direct analyses of mechanisms, cofactors, and functional domains of GATA-1 which regulate transcription at defined proximal promoters.
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PMID:In vitro transcription of erythroid promoters using baculoviral-expressed human GATA-1: purification, physicochemistry, and activities. 785 29

Erythroid differentiation leads to the production of red blood cells that contain a high level of hemoglobin. This level is mainly regulated by globin gene transcription during development and differentiation. Although numerous cis-acting sequences are involved in transcriptional activity of globin genes, combinations of three motifs, CCACC, SP1 and GATA represent the core elements of their regulatory sequences. These combinations are also found in promoters and/or enhancers of non-globin genes specifically expressed in the late stages of erythroid differentiation. The CCACC and SP1 sequences bind proteins that do not display erythrocytic specificity, and the GATA sequences bind a family of transacting factors recently cloned. The GATA family members are distinctive for a highly homologous DNA binding domain that exists in two zinc fingers reminiscent of those of the glucocorticoid receptor. None of the GATA family members displays only erythroid specificity, but gene disruption followed by rescue indicates that GATA-1 is necessary for terminal erythroid differentiation throughout development. The GATA/SP1 and GATA/CCACC associations are present in positive, negative or inducible regulatory sequences suggesting that other elements control the fine tuning of erythroid gene expression. NF-E2, which is a major transcriptional activator, members of the ets family which are implicated in the early stages of erythropoiesis and finally c-erbA which directly regulates a set of erythroid-specific genes are proteins that bind these latter regulatory motifs.
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PMID:Erythroid regulatory elements. 809 56

The human beta-globin locus control region (LCR) is responsible for forming an active chromatin structure extending over the 100-kb locus, allowing expression of the beta-globin gene family. The LCR consists of four erythroid-cell-specific DNase I hypersensitive sites (HS1 to -4). DNase I hypersensitive sites are thought to represent nucleosome-free regions of DNA which are bound by trans-acting factors. Of the four hypersensitive sites only HS2 acts as a transcriptional enhancer. In this study, we examine the binding of an erythroid protein to its site within HS2 in chromatin in vitro. NF-E2 is a transcriptional activator consisting of two subunits, the hematopoietic cell-specific p45 and the ubiquitous DNA-binding subunit, p18. NF-E2 binds two tandem AP1-like sites in HS2 which form the core of its enhancer activity. In this study, we show that when bound to in vitro-reconstituted chromatin, NF-E2 forms a DNase I hypersensitive site at HS2 similar to the site observed in vivo. Moreover, NF-E2 binding in vitro results in a disruption of nucleosome structure which can be detected 200 bp away. Although NF-E2 can disrupt nucleosomes when added to preformed chromatin, the disruption is more pronounced when NF-E2 is added to DNA prior to chromatin assembly. Interestingly, the hematopoietic cell-specific subunit, p45, is necessary for binding to chromatin but not to naked DNA. Interaction of NF-E2 with its site in chromatin-reconstituted HS2 allows a second erythroid factor, GATA-1, to bind its nearby sites. Lastly, nucleosome disruption by NF-E2 is an ATP-dependent process, suggesting the involvement of energy-dependent nucleosome remodeling factors.
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PMID:NF-E2 disrupts chromatin structure at human beta-globin locus control region hypersensitive site 2 in vitro. 881 76

Members of the small Maf family (MafK, MafF, and MafG) are basic region leucine zipper (bZip) proteins that can function as transcriptional activators or repressors. The dimer compositions of their DNA binding forms determine whether the small Maf family proteins activate or repress transcription. Using a yeast two-hybrid screen with a GAL4-MafK fusion protein, we have identified two novel bZip transcription factors, Bach1 and Bach2, as heterodimerization partners of MafK. In addition to a Cap'n'collar-type bZip domain, these Bach proteins possess a BTB domain which is a protein interaction motif; Bach1 and Bach2 show significant similarity to each other in these regions but are otherwise divergent. Whereas expression of Bach1 appears ubiquitous, that of Bach2 is restricted to monocytes and neuronal cells. Bach proteins bind in vitro to NF-E2 binding sites, recognition elements for the hematopoietic transcription factor NF-E2, by forming heterodimers with MafK. Furthermore, a DNA binding complex that contained MafK as well as Bach2 or a protein related closely to Bach2 was found to be present in mouse brain cells. Bach1 and Bach2 function as transcription repressors in transfection assays using fibroblast cells, but they function as a transcriptional activator and repressor, respectively, in cultured erythroid cells. The results suggest that members of the Bach family play important roles in coordinating transcription activation and repression by MafK.
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PMID:Bach proteins belong to a novel family of BTB-basic leucine zipper transcription factors that interact with MafK and regulate transcription through the NF-E2 site. 888 38

The human TCF11 gene encodes a ubiquitously expressed bZIP transcription factor of the cap n' collar (CNC) domain family. It has a high sequence similarity to the erythroid-specific bZIP factor p45 NF-E2 in the CNC domain, which is involved in DNA binding. LCR-F1, a TCF11 isoform, is a more potent transcriptional activator than p45 NF-E2 in erythroid cells. We show here that the TCF11 protein interacts to form heterodimers with small Maf proteins, previously shown to dimerize with p45 NF-E2, ECH and Fos. Such heterodimerization significantly alters the DNA binding characteristics of TCF11. While TCF11 alone binds in vitro to the tandem NF-E2 site derived from 5' DNase hypersensitive site 2 in the beta-globin locus control region and to the single NF-E2 site in the porphobilinogen deaminase gene promoter, stronger binding is detected in the presence of small Maf proteins. Using antibodies, TCF11 isoforms bound to the single NF-E2 site were detected in K562 erythroid cell nuclear extracts. These findings place TCF11 as a good candidate for the proposed widely expressed factor(s) known to interact with small Maf proteins and bind NF-E2 sites in a sequence-specific manner resembling NF-E2.
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PMID:Small Maf proteins interact with the human transcription factor TCF11/Nrf1/LCR-F1. 893 85

We have applied the mRNA differential display method to compare and analyze mRNAs prepared from five normal nasopharyngeal epithelial cell cultures and five nasopharyngeal carcinoma cell lines. A total of 24 differential display experiments was performed using different combinations of PCR primers. Sixty-nine cDNA fragments differentially expressed in either normal or malignant nasopharyngeal epithelial cells were identified. Subsequent cloning and sequencing of these differentially expressed cDNA fragments resulted in the identification of seventeen distinct sequences. Seven of these sequences were shown to be novel cDNA sequences not previously reported. Ten of the remaining cDNA fragments showed sequence homology to previously reported genes. Differential expression of four of these seventeen cDNA fragments in normal nasopharyngeal epithelial cells was confirmed by reverse Northern hybridization. One of these cloned cDNA fragments is a novel cDNA sequence while the other three matched to previously reported cDNA sequences involved in cell growth and migration. Homologous sequences identified to be differentially expressed in normal nasopharyngeal epithelial cells in this study are: human 26 kDa cell surface protein (TAPA-1) mRNA, NF-E2 like basic leucine zipper transcriptional activator and the human bullous pemphigoid antigen. The mRNA differential display is a useful tool to identify candidate genes involved in the pathogenesis of nasopharyngeal carcinoma.
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PMID:Identification of genes differentially expressed in nasopharyngeal carcinoma by messenger RNA differential display. 962 7

Murine erythroleukemia (MEL) cells are a model system to study reorganization of the eukaryotic nucleus during terminal differentiation. Upon chemical induction, MEL cells undergo erythroid differentiation, leading to activation of globin gene expression. Both processes strongly depend on the transcriptional activator NF-E2. Before induction of differentiation, both subunits of the NF-E2 heterodimer are present, but little DNA-binding activity is detectable. Using immunofluorescence microscopy, we show that the two NF-E2 subunits occupy distinct nuclear compartments in uninduced MEL cells; the smaller subunit NF-E2p18 is found primarily in the centromeric heterochromatin compartment, whereas the larger subunit NF-E2p45 occupies the euchromatin compartment. Concomitant with the commitment period of differentiation that precedes globin gene activation, NF-E2p18, along with other transcriptional repressors, relocates to the euchromatin compartment. Thus, relocation of NF-E2 p18 may be a rate-limiting step in formation of an active NF-E2 complex. To understand the mechanisms of NF-E2 localization, we show that centromeric targeting of NF-E2p18 requires dimerization, but not with an erythroid-specific partner, and that the transactivation domain of NF-E2p45 may be necessary and sufficient to prevent its localization in centromeric heterochromatin. Finally, using fluorescence in situ hybridization, we show that, upon differentiation, the beta-globin gene loci relocate away from heterochromatin compartments to euchromatin. This relocation correlates with both transcriptional activation of the globin locus and relocation of NF-E2p18 away from heterochromatin, suggesting that these processes are linked.
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PMID:Nuclear relocation of a transactivator subunit precedes target gene activation. 1159 25

IRFs [IFN (interferon) regulatory factors] constitute a family of transcription factors involved in IFN signalling and in the development and differentiation of the immune system. IRF-2 has generally been described as an antagonist of IRF-1-mediated transcription of IFN and IFN-inducible genes; however, it has been recently identified as a transcriptional activator of some genes, such as those encoding histone H4, VCAM-1 (vascular cell adhesion molecule-1) and Fas ligand. Biologically, IRF-2 plays an important role in cell growth regulation and has been shown to be a potential oncogene. Studies in knock-out mice have also implicated IRF-2 in the differentiation and functionality of haematopoietic cells. Here we show that IRF-2 expression in a myeloid progenitor cell line leads to reprogramming of these cells towards the megakaryocytic lineage and enables them to respond to thrombopoietin, as assessed by cell morphology and expression of specific differentiation markers. Up-regulation of transcription factors involved in the development of the megakaryocytic lineage, such as GATA-1, GATA-2, FOG-1 (friend of GATA-1) and NF-E2 (nuclear factor-erythroid-2), and transcriptional stimulation of the thrombopoietin receptor were also demonstrated. Our results provide evidence for a key role for IRF-2 in the induction of a programme of megakaryocytic differentiation, and reveal a remarkable functional diversity of this transcription factor in the regulation of cellular responses.
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PMID:Interferon regulatory factor-2 drives megakaryocytic differentiation. 1450 89

Members of the Maf protooncogene and cap'n' collar families of basic-leucine zipper transcription factors play important roles in development, differentiation, oncogenesis, and stress signaling. In this study, we performed an in vivo protein-protein interaction screen to search for novel partners of the small Maf proteins. Using full-length human MAFG protein as bait, we identified the human basic-leucine zipper protein NRF3 [NF-E2 (nuclear factor erythroid 2)-related factor 3] as an interaction partner. Transfection studies confirmed that NRF3 is able to dimerize with MAFG. The resulting NRF3/MAFG heterodimer recognizes nuclear factor-erythroid 2/Maf recognition element-type DNA-binding motifs. Functional analysis revealed the presence of a strong transcriptional activation domain in the center region of the NRF3 protein. We found that NRF3 transcripts are present in placental chorionic villi from at least week 12 of gestation on through term. In particular, NRF3 is highly expressed in primary placental cytotrophoblasts, but not in placental fibroblasts. The human choriocarcinoma cell lines BeWo and JAR, derived from trophoblastic tumors of the placenta, also strongly express NRF3 transcripts. We generated a NRF3-specific antiserum and identified NRF3 protein in placental choriocarcinoma cells. Furthermore, we showed that NRF3 transcript and protein levels are induced by TNF-alpha in JAR cells. Our functional studies suggest that human NRF3 is a potent transcriptional activator. Finally, our expression and induction analyses hint at a possible role of Nrf3 in placental gene expression and development.
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PMID:Functional and placental expression analysis of the human NRF3 transcription factor. 1538 89


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