UNIPROT:P51532 - FACTA Search

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

The retinoblastoma tumor suppressor protein (RB) binds several cellular proteins involved in cell cycle progression. Using the yeast two-hybrid system, we found that RB bound specifically to the protein BRG1. BRG1 shares extensive sequence similarity to Drosophila brahma, an activator of homeotic gene expression, and the yeast transcriptional activator SNF2/SW12. BRG1 contains an RB-binding motif found in viral oncoproteins and bound to the A/B pocket and the hypophosphorylated form of RB. BRG1 did not bind RB in viral oncoprotein-transformed cells. Coimmunoprecipitation experiments suggested BRG1 associates with the RB family in vivo. In the human carcinoma cell line SW13, BRG1 exhibited tumor suppressor activity by inducing formation of flat, growth-arrested cells. This activity depended on the ability of BRG1 to cooperate and complex with RB, as both an RB-nonbinding mutant of BRG1 and the sequestration of RB by adenovirus E1A protein abolished flat cell formation.
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PMID:The retinoblastoma protein and BRG1 form a complex and cooperate to induce cell cycle arrest. 792 70

The p53 tumor suppressor gene product is a transcriptional activator that may be associated with its ability to suppress tumor cell growth. The acidic amino terminus of the p53 protein has been shown to contain this trans-activation activity as well as the domains for mdm-2 and adenovirus 5 E1B 55-kD protein binding. An extensive genetic analysis of this amino-terminal p53 domain has been undertaken using site-specific mutagenesis. The results demonstrate that the acidic residues in the amino terminus of p53 may contribute to, but are not critical for, this trans-activation activity. Rather, the hydrophobic amino acid residues Leu-22 and Trp-23 of human p53 are both required for trans-activation activity, binding to the adenovirus E1B 55-kD protein and the human mdm-2-p53 protein in vitro. In addition, hydrophobic residues Leu-14 and Phe-19 are crucial for the interactions between p53 and human mdm-2 (hdm-2). Hydrophobic residues Trp-23 and Pro-27 are also important for binding to the adenovirus 5 (Ad5) E1B 55-kD protein in vitro. These mutations have no impact on the ability of the p53 protein to bind to a p53-specific DNA element. These results suggest that 2-4 critical hydrophobic residues in the amino-terminal domain of the p53 protein interact with the transcriptional machinery of the cell resulting in transcriptional activation. These very same hydrophobic residues contact the hdm-2 and Ad5 E1B 55-kD oncogene products.
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PMID:Several hydrophobic amino acids in the p53 amino-terminal domain are required for transcriptional activation, binding to mdm-2 and the adenovirus 5 E1B 55-kD protein. 792 27

The ability of the p53 protein to act as a sequence-specific transcriptional activator suggests that genes induced by p53 may encode critical mediators of p53 tumor suppression. Using a tetracycline-regulated p53 expression system and cDNA library subtraction procedure, we identified several p53-induced gene transcripts in human Saos-2 osteosarcoma cells that are novel on the basis of their size, regulation, and low abundance. Wild-type p53-dependent induction of these transcripts was observed in cells that are growth arrested by p53, as well as in cells that undergo apoptosis upon expression of an inducible wild-type p53 transgene. These results show that p53 activates the expression of numerous response genes and suggest that multiple effectors may play a role in mediating cellular functions of p53.
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PMID:Gene regulation by temperature-sensitive p53 mutants: identification of p53 response genes. 793 6

The transcriptional activator interferon regulatory factor 1 (IRF-1) and its antagonistic repressor IRF-2 are regulators of the interferon (IFN) system and of cell growth. Here we report that embryonic fibroblasts (EFs) from mice with a null mutation in the IRF-1 gene (IRF-1-/- mice) can be transformed by expression of an activated c-Ha-ras oncogene. This property is not observed in EFs from wild-type or IRF-2-/- mice but is still observed in EFs from mice deficient in both genes. The transformed phenotype of ras-expressing IRF-1-/- EFs could be suppressed by the expression of the IRF-1 cDNA. Thus, IRF-1 functions as a tumor suppressor. Furthermore, expression of the c-Ha-ras oncogene causes wild-type but not IRF-1-/- EFs to undergo apoptosis when combined with a block to cell proliferation or treated by anticancer drugs or ionizing radiation. Hence, IRF-1 may be a critical determinant of oncogene-induced cell transformation or apoptosis.
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PMID:Cellular commitment to oncogene-induced transformation or apoptosis is dependent on the transcription factor IRF-1. 800 72

The purpose of this study was to characterize stromal-epithelial interactions that result in induction of protease gene expression in squamous cell carcinoma of the skin. Coculture of the human squamous cell carcinoma cell line II4 with primary human foreskin fibroblasts was observed to induce mRNA expression of urokinase-type plasminogen activator (uPa), matrilysin, 92-kDa type IV collagenase, and c-ets, a transcriptional activator of several genes within the serine and matrix metalloprotease families. uPA and c-ets induction were localized to the fibroblast cell population. uPa induction was found to be dependent upon cell-cell contact with the tumor cell population, whereas c-ets induction was due to a combination of cell-cell contact and a tumor cell-derived soluble factor. In contrast, matrilysin induction localized to the tumor cells and was shown by Northern and Western analyses to occur in response to a fibroblast-derived soluble factor. These data demonstrate that both paracrine factors and cell-cell contact between stromal fibroblasts and epithelial tumor cells can influence protease gene expression.
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PMID:Paracrine factor and cell-cell contact-mediated induction of protease and c-ets gene expression in malignant keratinocyte/dermal fibroblast cocultures. 802 May 84

The transcriptional activator IRF-1 and its antagonistic repressor IRF-2 are regulators of the interferon (IFN) system and of cell growth. Overexpression of IRF-2 leads to transformation of NIH3T3 cells, and the concomitant overexpression of IRF-1 reverts this transformed phenotype. Here we report that c-myc- or fosB-transformed rat embryonic fibroblast cells can be reverted by the introduction of the IRF-1 gene. Thus, the anti-oncogenic function of IRF-1 is not limited to only IRF-2 overexpressing cells, suggesting the broad role of IRF-1 as a tumor suppressor.
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PMID:Suppression of c-myc or fosB-induced cell transformation by the transcription factor IRF-1. 806 14

The 5' half of the EWS gene has recently been described to be fused to the 3' regions of genes encoding the DNA-binding domain of several transcriptional regulators, including ATF1, FLI-1, and ERG, in several human tumors. The most frequent occurrence of this situation results from the t(11;22)(q24;q12) chromosome translocation specific for Ewing sarcoma (ES) and related tumors which joins EWS sequences to the 3' half of FLI-1, which encodes a member of the Ets family of transcriptional regulators. We show here that this chimeric gene encodes an EWS-FLI-1 nuclear protein which binds DNA with the same sequence specificity as the wild-type parental FLI-1 protein. We further show that EWS-FLI-1 is an efficient sequence-specific transcriptional activator of model promoters containing FLI-1 (Ets)-binding sites, a property which is strictly dependent on the presence of its EWS domain. Comparison of the properties of the N-terminal activation domain of FLI-1 to those of the EWS domain of the fusion protein indicates that EWS-FLI-1 has altered transcriptional activation properties compared with FLI-1. These results suggest that EWS-FLI-1 contributes to the transformed phenotype of ES tumor cells by inducing the deregulated and/or unscheduled activation of genes normally responsive to FLI-1 or to other close members of the Ets family. ES and related tumors are characterized by an elevated level of c-myc expression. We show that EWS-FLI-1 is a transactivator of the c-myc promoter, suggesting that upregulation of c-myc expression is under control of EWS-FLI-1.
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PMID:DNA-binding and transcriptional activation properties of the EWS-FLI-1 fusion protein resulting from the t(11;22) translocation in Ewing sarcoma. 816 78

EWS/FLI-1 is a chimeric protein formed by a tumor-specific 11;22 translocation found in both Ewing's sarcoma and primitive neuroectodermal tumor of childhood. EWS/FLI-1 has been shown to be a potent transforming gene, suggesting that it plays an important role in the genesis of these human tumors. We now demonstrate that EWS/FLI-1 has the characteristics of an aberrant transcription factor. Subcellular fractionation experiments localized the EWS/FLI-1 protein to the nucleus of primitive neuroectodermal tumor cells. EWS/FLI-1 specifically bound in vitro an ets-2 consensus sequence similarly to normal FLI-1. When coupled to a GAL4 DNA-binding domain, the amino-terminal EWS/FLI-1 region was a much more potent transcriptional activator than the corresponding amino-terminal domain of FLI-1. Finally, EWS/FLI-1 efficiently transformed NIH 3T3 cells, but FLI-1 did not. These data suggest that EWS/FLI-1, functioning as a transcription factor, leads to a phenotype dramatically different from that of cells expressing FLI-1. EWS/FLI-1 could disrupt normal growth and differentiation either by more efficiently activating FLI-1 target genes or by inappropriately modulating genes normally not responsive to FLI-1.
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PMID:The Ewing's sarcoma EWS/FLI-1 fusion gene encodes a more potent transcriptional activator and is a more powerful transforming gene than FLI-1. 824 59

Constitutive up-regulation of interleukin-6 (IL-6) gene expression is observed in many neoplastic cell lines. The contribution of mutations in p53 to the up-regulation of the IL-6 promoter was evaluated in transient transfection experiments. In HeLa cells, wild-type (wt) human or murine p53 preferentially repressed the IL-6 promoter. The p53 mutants Val-135 and Phe-132 up-regulated IL-6 promoter activity in these cells at both 32.5 and 37 degrees C. The temperature-sensitive Val-135 mutant was not only not inhibitory or "wt-like" at the lower temperature, but had gained a transcriptional activator phenotype which was temperature-independent in HeLa cells. The functional DNA target for transcriptional modulation of the IL-6 promoter by p53 species included the multiple cytokine- and second messenger-response element (-173 to -145); point mutations in the transcription factor C/EBP beta-binding site within the second messenger-response element largely blocked the ability of p53 mutants Val-135 and Phe-132 to up-regulate this promoter. The up-regulation of IL-6 promoter constructs by co-transfection into HeLa cells of a C/EBP beta constitutive expression vector was blocked in a dominant negative manner by wt p53. In contrast, the p53 mutants Val-135 and Phe-132 further enhanced C/EBP beta-mediated up-regulation of IL-6 promoter constructs. The modulation of C/EBP beta function by p53 species provides a basis for the involvement of p53 not only in the regulation of cytokine synthesis but also in the altered responsiveness of tumor cells to cytokines.
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PMID:Modulation of the human interleukin-6 promoter (IL-6) and transcription factor C/EBP beta (NF-IL6) activity by p53 species. 832 85

WT1 is a tumor-suppressor gene expressed in the developing kidney, whose inactivation leads to the development of Wilms tumor, a pediatric kidney cancer. WT1 encodes a transcription factor which binds to the EGR1 consensus sequence, mediating transcriptional repression. We now demonstrate that p53, the product of a tumor-suppressor gene with ubiquitous expression, physically associates with WT1 in transfected cells. The interaction between WT1 and p53 modulates their ability to transactivate their respective targets. In the absence of p53, WT1 acts as a potent transcriptional activator of the early growth response gene 1 (EGR1) site, rather than a transcriptional repressor. In contrast, WT1 exerts a cooperative effect on p53, enhancing its ability to transactivate the muscle creatine kinase promoter.
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PMID:Physical and functional interaction between WT1 and p53 proteins. 838 68

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