UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutant p53 and activated ras cDNA clones cooperate to fully transform primary rat embryo fibroblasts in cell culture, whereas neither cDNA alone results in the full transformation of these cells. The mutant p53 protein may be required to initiate the transformation event with ras. Alternatively, mutant p53 gene expression may be required to maintain the properties of the transformed phenotype. To distinguish between these possibilities, primary rat embryo fibroblasts were transformed with mutant p53 plus ras cDNAs, where the expression of the p53 gene was regulated by an isopropyl beta-D-thiogalactoside-responsive promoter. When expression of the mutant p53 cDNA was inhibited and no detectable exogenous p53 protein was produced, both the growth rate and the morphology of the cells reverted to a normal phenotype. These results demonstrate that a mutant p53 protein is required for the maintenance of the transformed phenotype in cells transformed with p53 plus ras cDNAs.
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PMID:A mutant p53 protein is required for maintenance of the transformed phenotype in cells transformed with p53 plus ras cDNAs. 157 Mar 19

The p53 gene is currently considered to function as a tumor-suppressor gene in various human malignancies. In hematologic malignancies, alterations in the p53 gene have been shown in some human leukemias and lymphomas. Although mutations in the p53 gene are infrequent in acute myelogenous leukemia (AML) patients, we show in this report that alterations in the p53 gene are frequent in myeloid leukemia cell lines. We studied alterations of the p53 gene in nine human myeloid leukemia cell lines by reverse transcriptase-polymerase chain reaction (RT-PCR), single-strand conformation polymorphism (SSCP) analysis, and direct sequencing. Expression of the p53 gene was not detected at all by RT-PCR in two of the nine cell lines. In these two cell lines, Southern blot analysis showed gross rearrangements and deletions in both of the p53 alleles. Six of the nine cell lines were found to express only mutant p53 mRNA by RT-PCR/SSCP analysis and direct sequencing, and wild-type p53 mRNA was not detected. Two of the mutant p53 mRNAs were shown to be products of abnormal splicing events induced by intronic point mutations. Taken together, eight of nine human myeloid leukemia cell lines expressed no or an undetectable amount of wild-type p53 mRNA. Three of the eight cell lines were growth factor-dependent. Our results suggest that inactivation of the p53 gene may be a common feature in myeloid leukemia cell lines and may play an important role in the establishment of these cell lines.
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PMID:Frequent mutations in the p53 gene in human myeloid leukemia cell lines. 157 49

Mutation of the p53 gene is a key element in the development of several human cancers. Intron 4, a noncoding region of the p53 gene, is required for optimal expression of that gene. We have previously shown that nuclear protein binds intron 4 and have defined the protein-binding site. In this paper we address the question, "Does the mutant p53 gene's ability to transform cells to the malignant phenotype depend on protein binding to intron 4?" Using an in vitro assay in which the mutant p53 gene and Ha-ras oncogene cooperate in transformation of cells to the malignant phenotype, we determined the ability of mutant mouse p53 gene constructs, with and without two base pair substitutions at the intron 4 protein-binding site, to participate in malignant transformation. On Day 1, 5 x 10(5) rat embryo fibroblasts were transfected by the calcium phosphate procedure with 10 micrograms of both a mutant p53 gene construct and Ha-ras oncogene. Malignant transformation was evidenced by the formation of discrete foci of heaped-up cells. After 14 days of incubation at 37 degrees C in DMEM and 10% fetal calf serum (8% CO2), the cells were stained with cresyl violet and the foci counted. In three separate experiments, the presence of two base pair substitutions at the intron 4 protein-binding site caused a significant decrease in the number of foci formed (P less than 0.05).
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PMID:Inhibition of the mutant p53 gene in transformation assays. 159 78

To explore the biochemical functions of p53, we have initiated a search for cellular p53-binding proteins. Coprecipitation of three polypeptides was observed when cell lines overexpressing a temperature-sensitive (ts) p53 mutant were maintained at 32.5 degrees C (wild-type p53 activity, leading to growth arrest) but not at 37.5 degrees C (mutant p53 activity). One of these three proteins, designated p95 on the basis of its apparent molecular mass, was highly abundant in p53 immune complexes. We demonstrate herein that p95 is a p53-binding protein, which exhibits poor p53-binding in cells overproducing several distinct mutant p53 proteins. Yet, p95 associates equally well with both the wild-type (wt) and the mutant conformations of the ts p53 in transformed cells growth-arrested at 32.5 degrees C. On the basis of our findings we suggest that wt p53 activity increases p53-p95 complex formation and that such interaction may play a central role in p53 mediated tumour suppression.
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PMID:Enhanced binding of a 95 kDa protein to p53 in cells undergoing p53-mediated growth arrest. 160 Sep 43

The p53 protein is an important determinant in human cancer and regulates the growth of cells in culture. It is known to be a sequence-specific DNA-binding protein with a powerful activation domain, but it has not been established whether it regulates transcription directly. Here we show that intact purified wild-type human and murine p53 proteins strongly activate transcription in vitro. This activation depends on the ability of p53 to bind to a template bearing a p53-binding sequence. By contrast, tumour-derived mutant p53 proteins cannot activate transcription from the template at all, and when complexed to wild-type p53, these mutants block transcriptional activation by the wild-type protein. Moreover, the simian virus 40 large T antigen inhibits wild-type p53 from activating transcription. Our results support a model in which p53 directly activates transcription but this activity can be inhibited by mutant p53 and SV40 large T antigen through interaction with wild-type p53.
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PMID:Wild-type p53 activates transcription in vitro. 161 22

In order to obtain insight into the parameters determining the subcellular localization of mutant and wild-type forms of p53, we analysed the subcellular distribution of p53 in four Balb/c mouse-derived cell lines ranging in their cellular phenotypes from normal (3T3), via minimal transformant (T3T3), to maximally transformed (3T3tx, Meth A). Epitope mapping showed the p53 proteins in 3T3 and in T3T3 cells to be in a wild-type conformation, as they reacted with PAb246, whereas p53 in 3T3tx and in Meth A cells were PAb246 negative and thus displayed a mutant conformation. Despite its reactivity with PAb246, p53 in T3T3 cells had an extended half-life and accumulated to abnormally high levels. We show that the conformationally wild-type p53 in 3T3 and T3T3 cells predominantly localized to the cell nucleus, with about half of it being tightly associated with nuclear structures. In contrast, approximately 60% of mutant p53 in 3T3tx and Meth A cells localized to the cytoplasm, the rest residing in the cell nucleus; all the nuclear p53 in these cells appeared to be structurally bound. The cytoplasmic location of mutant p53 in 3T3tx and Meth A cells was not seen by immunofluorescence microscopic analysis, and required cell fractionation for its detection. Both cytoplasmic and nuclear p53 of the mutant phenotype bound to hsc proteins with a similar stoichiometry, suggesting that hsc binding is not directly related to the subcellular distribution of these proteins. We suggest that the conformational phenotype of p53 is a major determinant of its subcellular location.
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PMID:Correlation between the conformational phenotype of p53 and its subcellular location. 162 May 50

Mouse 10T1/2 cells were transfected with combinations of T24 H-ras, human c-myc and the proline 193 mutant form of p53. The three-gene ras/myc/p53 combination was significantly more efficient than single genes or double gene combinations in inducing transformed foci in vitro. An analysis of cell lines isolated after transfections with ras, ras/myc, ras/p53 and ras/myc/p53 indicated that the last combination contained significantly higher levels of ras protein than the other combinations, produced tumors in syngeneic mice with a shorter latency period, and exhibited an increased ability to form lung tumors in an in vivo experimental metastasis assay. Synergistic interactions between ras, myc and mutant p53 genes were observed in focus formation and metastasis assays, suggesting that the action of the three oncogenes in malignant transformation occurs along separate but interactive pathways. These results support a working model of oncogene cooperativity in which alterations in myc and p53 permit elevated expression of ras, which is important in a mechanism affecting both cellular transformation in vitro and tumor dissemination in vivo.
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PMID:Evidence for synergistic interactions between ras, myc and a mutant form of p53 in cellular transformation and tumor dissemination. 162 May 51

It has been reported recently that the wild-type p53 gene product can positively regulate the expression of a test gene adjacent to the enhancer-promoter elements of the murine muscle-specific creatine kinase (MCK) gene. This discussion reports the identification of a wild-type p53 protein-specific DNA-binding element located within the p53-responsive region of the MCK enhancer-promoter element. This p53 protein/DNA-binding element has been defined by DNase I footprint analysis, which identified a 50-bp region. This 50-bp sequence was sufficient to confer wild-type p53 responsiveness on a heterologous minimal promoter. The mutant forms of p53 protein are much less capable of stimulating this DNA element. This study has identified the first example of a naturally occurring wild-type p53-specific DNA-binding element that is able to mediate positive regulation of a test gene. The results suggest a biological function in gene regulation for the wild-type p53 protein that is lost or altered in the mutant p53 proteins.
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PMID:Wild-type p53 mediates positive regulation of gene expression through a specific DNA sequence element. 162 22

The wild-type (wt) human tumor-suppressor gene product, p53, and its mutant form have been analysed in an in vivo system in which the inducible expression of wt p53 results in growth arrest in the G1 phase of the cell cycle. Two major pools of p53 are detected after wt p53 expression by their differential reactivity with the p53 monoclonal antibodies PAb 421 and 1801 as well as the mutant and wt-specific monoclonal antibodies PAb 240 and 1620; one pool contains wt and mutant p53 and is characterized as having a mutant conformation, whereas the other pool contains only wt p53 with a wt conformation. As G1 arrest is entered, the amount of wt p53 associated with the mutant pool decreases, such that by 12 h free wt and mutant p53 are the major pools. Two-dimensional gel analysis of the p53 pools revealed that free wt p53 is phosphorylated to a greater degree than mutant p53, which correlated with the loss of the PAb 421 epitope on wt p53. In summary, the ability of wt p53 to exert an antiproliferative effect correlates with the presence of a unique conformational state of wt p53 characterized by increased phosphorylation and the loss of both the PAb 421 epitope and association with mutant p53 pool, whereas mutant p53 is unable to assume this conformational state.
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PMID:Human wild-type p53 adopts a unique conformational and phosphorylation state in vivo during growth arrest of glioblastoma cells. 163 Aug 23

Expression of the normal p53 gene promotes cell differentiation, maturation and apoptosis. The mutant p53 gene, which does not function normally, is frequently expressed at elevated levels in tumor cells [for review see Lane, D.P. & Benchimol, S. (1990). Genes Dev., 4, 1-8]. We have analysed the expression of and mutational change in the p53 gene in the peripheral blood cells of 49 primary acute myeloid leukemia (AML) patients. The p53 protein levels were elevated in 37 patients (75%) when measured by immunoprecipitation with antibodies PAb1801 and PAb421, which recognize both normal and mutant forms of the protein. The p53 protein from 32 of these 37 patients was immunoprecipitated by PAb240, which recognizes a conformation of p53 protein associated with point mutations. However, point mutations were detected by single-stranded conformation polymorphism (SSCP) assay and direct sequencing in only three patients at codons 178, 245, 273 and 290. Growth stimulation of normal lymphocytes also generated p53 which was immunoprecipitable by PAb240. Thus, alteration of p53 conformation, rather than acquisition of point mutations, could be the mechanism underlying the increased proliferation of myeloid cells in most AML patients.
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PMID:Altered conformation of the p53 protein in myeloid leukemia cells and mitogen-stimulated normal blood cells. 163 Aug 24

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