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 p53 tumor-suppressor gene product, a sequence-specific DNA-binding protein, has been shown to act both as a transcriptional activator and repressor in vivo and in vitro. Consistent with its roles in regulating transcription are recent observations that p53 binds directly to the TATA box-binding protein (TBP) subunit of the basal transcription factor TFIID. Here, we show that p53 cooperates with either recombinant TBP or partially purified TFIID in binding to a DNA fragment containing both a specific p53-binding site (RGC) and a TATA box (RGC-TATA). Surprisingly, both TBP and TFIID also stimulate p53 binding to DNA containing a specific p53-binding site but lacking a TATA box. These data are supported by the observation that p53 and Drosophila TBP combinatorily activate transcription in vivo. Our results suggest that p53 activates transcription through the formation of a more stable p53-TFIID-promoter complex. We also examined whether p53 might affect the ability of TBP or TFIID to interact with DNA containing a TATA box but lacking a p53-binding site. Although p53 strongly inhibited the interaction of TBP with such DNA, it had virtually no effect on TFIID binding. Thus, transcriptional repression by p53 may require additional functions other than inhibiting TBP binding.
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PMID:Cooperative DNA binding of p53 with TFIID (TBP): a possible mechanism for transcriptional activation. 840 94

TnphoA mutagenesis of Agrobacterium tumefaciens identified new extracytoplasmic protein-encoding virulence loci. Mutations in these loci conferred increased sensitivity to detergents and several antibiotics. Clones carrying these loci were isolated from an A. tumefaciens cosmid library by complementation of the detergent sensitivities of the mutants. The locus on one complementing clone was delineated by Tn5 and TnphoA mutagenesis. DNA sequence analysis of the delineated region revealed that this locus is made up of two transcriptional units, chvG and chvI, which were predicted, on the basis of amino acid sequence homology, to encode the members of a two-component sensory transduction system. The membrane-spanning sensor, a histidine protein kinase, was designated ChvG, and the response regulator, presumably a transcriptional activator, was designated ChvI. Surprisingly, ChvG was also predicted to contain a Walker type A consensus nucleotide binding site, which is unusual for sensor histidine protein kinases. Site-specific insertion mutations in either chvG or chvI abolished tumor formation ability, as well as the ability to grow on complex media. Neither the genes which are regulated nor the inducing signal is known yet for this system.
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PMID:A chromosomally encoded two-component sensory transduction system is required for virulence of Agrobacterium tumefaciens. 840 39

The human p53 tumor suppressor gene product can activate transcription by RNA polymerase II in the yeast, Saccharomyces cerevisiae, as well as in human cells. Several viral transcriptional activator proteins have been shown to directly contact TBP, the TATA box-binding subunit of the general initiation factor, TFIID. In this report, we use protein affinity chromatography to show that the cellular transcription factor, p53, interacts directly and specifically with yeast TBP. The TBP binding domain of p53 was localized to its N-terminal 73 amino acids. This highly acidic portion of p53 functions as a transcriptional activation domain and is deleted in some tumors induced by the Friend leukemia virus. A human tumor-derived oncogenic point mutation of p53, which lies outside the activation domain of p53, but reduces its ability to activate transcription, greatly reduced the ability of p53 to bind yeast TBP in vitro. This mutation probably affects the overall conformation of the protein and indirectly interferes with the ability of p53 to contact TBP and activate transcription. In contrast, a mutated oncogenic form of p53 that is unaffected in its ability to activate transcription bound yeast TBP as well as wild type p53. The human TBP activity in a HeLa extract also bound to the activation domain of p53. Our data support a general model in which DNA-bound activator proteins activate transcription by interacting with TBP.
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PMID:Direct interaction between the transcriptional activation domain of human p53 and the TATA box-binding protein. 842 1

We used a yeast-based genetic assay, the two-hybrid system, to characterize the domain of the tumor-suppressor p53 involved in oligomerization. This assay relies on the reconstitution of the function of a transcriptional activator, the yeast GAL4 protein, via the interaction of a protein fused to the DNA-binding domain of GAL4 with a protein fused to the transcriptional activation domain of GAL4. We show by a reconstruction experiment that this approach could detect the interaction of p53 deleted for its N-terminal activation domain with SV40 large T antigen. We then searched a library of human proteins present as activation domain hybrids for proteins that can interact with the hybrid of p53 with the DNA-binding domain. This search identified 36 plasmids containing the p53 gene, representing 10 different classes. These results provide an additional in vivo demonstration of p53 oligomerization. The smallest p53 fragment identified from screening the library contained only amino acids 331-393, indicating that this small C-terminal fragment is sufficient to mediate oligomerization. In addition, a mutant p53 protein could bind to the wild-type protein in this assay, providing support for the idea that mutant forms of p53 act in a dominant-negative manner through C-terminal oligomerization with the wild type.
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PMID:Use of the two-hybrid system to identify the domain of p53 involved in oligomerization. 850 89

Accumulating evidence supports the hypothesis that tumor-suppressor p53 can act as a transcriptional activator. Insertion of high-affinity p53 DNA binding sites upstream of a promoter yields a p53-responsive vector. Chimeric proteins fusing p53 and the GAL4 DNA-binding domain demonstrate the presence of a transcriptional activating domain in the N-terminus of p53. GAL4-p53 chimeras constructed using naturally occurring p53 mutations at either codon 141 (Tyr-141) or 175 (His-175) of p53 had little ability to activate the reporter gene; in contrast, mutations at either codon 248 (Trp-248) or 273 (His-273) produced greater transcriptional activities than did wild-type p53. GAL4 chimeras can be used to analyse interactions between different domains of p53 and between different p53 alleles; a DNA binding site is defined, and a simple measurement can be made of function. We had expected that coexpression of GAL4 chimeras and p53 alleles would squelch transcriptional activation downstream of GAL binding sites. Surprisingly, coexpression of either p53 (Trp-248) or (His-273) with the GALA-p53 (wild-type, His-273, Trp-248, His-175, Tyr-141) effectors conferred an increase in transcriptional activation as compared with the effector alone. Oligomerization of p53 alleles with GAL4-p53 chimeras could underlie this effect, leading to an increase in transcription-activating motifs near the promoter. To test this possibility, we constructed a GAL4-p53 C-terminal chimera with p53 residues 160-393, lacking the transcriptional activating domain but retaining regions believed to be important in p53 oligomerization. Neither GAL4-p53 (C-terminus) nor p53 expression vectors were able to transactivate G5E1B-CAT alone. Both p53 (His-273) and (Trp-248) co-expressed with GAL4-p53 (C-terminus) were able to transactivate the G5E1B-CAT reporter gene; in contrast, p53 (Tyr-141) was not able to activate transcription. p53 (Tyr-141/His-273) behaved as a dominant negative mutant and inhibited the ability of the combination of p53 (His-273) and GAL4-p53 (C-terminus) to stimulate the reporter gene. Double immunoprecipitation by sequentially using GAL4 and p53 antibodies showed that p53 (His-273) and (Tyr-141/His-273), but not p53 (Tyr-141), can efficiently oligomerize in vivo to the C-terminal region of p53. Transcriptional activating function of p53 may be modulated by oligomerization; some mutations, such as His-273 and Trp-248, participate in these functions.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mutant p53 proteins have diverse intracellular abilities to oligomerize and activate transcription. 851 Sep 27

The wild-type p53 protein is a transcriptional activator implicated in the control of cellular growth-related gene expression. Here, using a number of different cell lines and transient-transfection-transcription assays, we demonstrate that at low levels, wild-type p53 transactivates the human proliferating cell nuclear antigen (PCNA) promoter. When expressed at a similar level, the tumor-derived p53 mutants did not transactivate the PCNA promoter. We identified a p53-binding site on the human PCNA promoter with which p53 interacts sequence specifically. When placed on a heterologous synthetic promoter, the binding site functions as a wild-type p53 response element in either orientation. Deletion of the p53-binding site renders the PCNA promoter p53 nonresponsive, showing that wild-type p53 transactivates the PCNA promoter by binding to the site. At a higher concentration, wild-type p53 inhibits the PCNA promoter but p53 mutants activate. Transactivation by p53 mutants does not require the p53-binding site. These observations suggest that moderate elevation of the cellular wild-type p53 level induces PCNA production to help in DNA repair.
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PMID:Wild-type human p53 transactivates the human proliferating cell nuclear antigen promoter. 852 44

Molecular characterization of malignant melanoma of soft parts or soft tissue clear cell sarcoma which shares t(12;22) chromosome translocation revealed fusion of EWS with a transcriptional factor gene ATF-1. The EWS gene, which encodes an RNA binding protein, was also shown to be involved in Ewing sarcoma, related primitive neuroectodermal tumors and desmoplastic small round cell tumors. In order to understand the functional role of EWS-ATF-1 chimeric protein in human solid tumors, we have cloned the aberrant human ATF-1 (EWS-ATF-1) cDNA and studied its DNA binding, transcriptional activation properties and compared with normal ATF-1 protein. Our results demonstrate that EWS-ATF-1 binds weakly to DNA in vitro but functions as an efficient constitutive transcriptional activator unlike the normal ATF-1 which needs to be induced with cAMP. Deletion analysis revealed that EWS-fusion domain functions as a regulatory domain for the transcriptional activation properties of EWS-ATF-1 chimeric protein. Deletion of leucine zipper domain results in a loss of transcriptional activation of EWS-ATF-1 chimeric protein suggesting that protein-protein interaction play a role in the transcriptional activation properties of EWS-ATF-1. We demonstrate that EWS-fusion domain negatively regulates the DNA binding activity of EWS-ATF-1 chimeric protein. Therefore replacement of part of the amino-terminal kinase regulatory domain of ATF-1 protein with EWS regulatory domain results in an altered DNA binding, protein-protein interactions and transcriptional activation properties of EWS-ATF-1 causing deregulated gene expression which may be responsible for the genesis of t(12;22) chromosome translocation-bearing human solid tumors. Targeting the transcriptional cofactors (CBP, etc) by EWS-fusion proteins could be one of the mechanisms of activation of EWS-fusion proteins in human neoplasia.
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PMID:The EWS-ATF-1 gene involved in malignant melanoma of soft parts with t(12;22) chromosome translocation, encodes a constitutive transcriptional activator. 855 87

The transcriptional activator IFN regulatory factor 1 (IRF-1) and its antagonistic repressor IRF-2 are regulators of the IFN system. IRF-1 also manifests tumor suppressive activity, and its inactivation could contribute to the development of human hematopoietic malignancies. Here, we report the identification of the lysyl oxidase gene as a target gene of IRF-1. An IRF response element was identified in the lysyl oxidase gene promoter. We also demonstrate that the transformed phenotype of ras-expressing embryonic fibroblasts with a null mutation in the IRF-1 allele could be suppressed by the expression of the lysyl oxidase cDNA, implicating its potential role in tumor suppression. Thus, the regulation of the lysyl oxidase gene by IRF-1 could contribute to the multistep process of malignant transformation.
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PMID:Identification of the lysyl oxidase gene as target of the antioncogenic transcription factor, IRF-1, and its possible role in tumor suppression. 862 21

p53 is a nuclear phosphoprotein whose function is classified as tumor suppression. Studies have shown that p53 functions by binding to p53 DNA recognition sequences and regulates transcription of growth-regulatory genes. Various p53 recognition sequences have recently been identified. pOST2 contained two copies of a palindromic high-affinity DNA-binding sequence for p53; the other p53 recognition sequences included p53-binding fragments found in the human ribosomal gene cluster (pRGC) region and in the murine muscle creatine kinase promoter (pMCK). The purpose of this study was to compare the abilities of various p53 recognition sequences to mediate transcription in the presence of endogenously produced wild-type (wt) or mutant p53. Three p53-responsive chloramphenicol acetyltransferase (CAT) reporter constructs (pOST2, pRGC, and pMCK) that contain one or two copies of p53 recognition sequences upstream of a herpes thymidine kinase (TK) promoter and CAT reporter cDNA were constructed. Either a p53-responsive gene or a control reporter gene was transfected into human carcinoma cell lines (having various p53 mutations) either with or without a wt or mutant p53 expression vector. CAT activity was assayed to measure transactivation through the various p53-responsive elements. We showed that pOST2 had a greater ability to mediate transactivation by p53 than either pRGC or pMCK. p53 with a mutation at either codon 175 or 248 was unable to transactivate a reporter gene with pOST2, pRGC, or pMCK. We found it interesting that pOST2, but not pRGC or pMCK, was able to mediate transactivation in cell lines that produce codon 273-mutant p53. These findings suggest that various sensitivities of the different p53-responsive elements to specific mutant and wt p53s may be an important factor in the role of p53 as a transcriptional activator both under normal physiological conditions and during carcinogenesis.
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PMID:p53 transactivation through various p53-responsive elements. 864 24

Matrix proteases and the transcription factor c-Ets-1, which regulates in vitro stromelysin 1, collagenase 1, and urokinase type plasminogen activator gene promoters, are frequently expressed in invasive carcinomas. Using in situ hybridization and immunohistochemistry, we analyzed collagenase 1, stromelysins 1 and 3, matrilysin, urokinase type plasminogen activator, and c-Ets-1 gene expression on serial frozen sections of 39 intraepithelial bronchial lesions, including areas of hyperplasia, metaplasia, dysplasia, carcinoma in situ, and corresponding lung carcinomas in 13 patients. In intraepithelial lesions, expression of all matrix proteases was detected in epithelial cells. Conversely, in microinvasive or invasive lesions, a fibroblastic expression was observed. Collagenase 1 and matrilysin were expressed seldomly in intraepithelial lesions and frequently in carcinomas (p = 0.0016 and p < 0.0001, respectively). Stromelysin 1 was expressed inconsistently in 31% of intraepithelial lesions of all grades and in 50% of carcinomas. Stromelysin 3 and urokinase type plasminogen activator were expressed only, but frequently, in preinvasive lesions (dysplasia, carcinoma in situ) and in carcinomas. The expression of stromelysin 3 in fibroblasts started with dysplasia and carcinoma in situ, but was more frequent in invasive than preinvasive lesions (p = 0.0012). c-Ets-1 was more often expressed in carcinomas than in intraepithelial lesions (p < 0.0001) and was always expressed in fibroblasts. Comparing preinvasive lesions adjacent to or at a distance from squamous lung carcinoma, stromelysin 3 epithelial expression was more frequent in preinvasive lesions adjacent to invasive foci than in others (p = 0.036). We conclude that (a) both epithelial expression of matrix proteases in intraepithelial bronchial lesions and their stromal expression in microinvasive and invasive lesions suggest their role in lung tumor development; (b) c-Ets-1 does not act as a transcriptional activator for matrix proteases genes in preinvasion, although it might regulate collagenase 1 gene during lung tumor progression; and (c) matrix proteases might offer new therapeutic targets for chemoprevention of lung cancer.
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PMID:Changes in the expression of matrix proteases and of the transcription factor c-Ets-1 during progression of precancerous bronchial lesions. 868 34

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