UNIPROT:B6E4X6 - FACTA Search

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Query: UNIPROT:B6E4X6 (mutant p53)
3,342 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The tumor suppressor gene p53 has been identified as the most frequent target of genetic alterations in human cancers. Cancer-related mutations in the human p53 protein tend to cluster in four of the five highly conserved domains of the protein, and, in particular, in the central region of domain IV from residues 241 to 253. Using conformational energy analysis based on ECEPP (Empirical Conformational Energies for Polypeptides Program), we have determined the preferred three dimensional structures for this tridecapeptide sequence for the human wild-type p53 protein and four cancer-related mutant p53 proteins (Ala 245, Ile 246, Trp 248, Ser 249). The results show that the mutant peptides adopt conformations that are distinctly different from that of the wild-type peptide. These results are consistent with experimental conformational studies demonstrating altered detectability of antigenic epitopes in murine wild-type and mutant p53 proteins. These results suggest that the oncogenic effects of human mutant p53 proteins may be mediated by distinct local conformational changes in the protein.
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PMID:Conformational effects of selected cancer-related amino acid substitutions in the p53 protein. 146 8

Primary rat embryo fibroblasts were transformed by a p53 mutant (alanine to valine change at amino acid 135) plus ras. This p53val135 mutant is temperature sensitive for a conformational change detected by the binding of a monoclonal antibody, PAb246, which recognizes the wild-type protein or the great majority of p53val135 at 32.5 degrees C. At 37 degrees C, both mutant and wild-type p53 conformational forms co-exist in the cells, while at 39.5 degrees C, the majority of the p53val135 in the cell is in a mutant conformation not recognized by PAb246 antibody. At 39.5 degrees C, the mutant p53 is localized in the cytoplasm of the cell. At 32.5 degrees C, the p53 protein enters the nucleus and stops the growth of these cells. At 37 degrees C where there is a mixture of mutant and wild-type p53, the wild-type p53 protein is in a complex with hsc70 and mutant p53 protein in the cytoplasm of the cell during G1. This wild-type protein enters the nucleus as the cells enter the S-phase of the cell cycle. At 32.5 degrees C, the cells stop replication and arrest at the G1/S border. After 48 hr at 32.5 degrees C, 91% of the cells are in the G1 fraction of the cell cycle. The S-phase cells appear to be immune to the p53 negative regulation of growth until they enter the next G1 period.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cellular localization and cell cycle regulation by a temperature-sensitive p53 protein. 199 13

DNA damage increases p53 protein levels and activates transcription of the p21 gene. The p21 protein binds to and inhibits cdk2 kinase, causing G1 arrest. Here, we have investigated if a p53 fusion protein is a substrate for cdk2 kinase in vitro. Cdk2 kinase was immunoprecipitated from NIH3T3 cells and allowed to phosphorylate a human p53-GST (glutathione-s-transferase) fusion protein. Cdk2 and cyclin E-cdk2 efficiently phosphorylated both wild-type (wt) and mutant p53-GST. Cdk2 immunoprecipitated from cells in Go and early G1 exhibited minimal p53 kinase activity, whereas cells in S-phase displayed high levels of p53 kinase activity. If NIH3T3 cells were X-ray irradiated to induce DNA damage, cdk2 p53 kinase activity was rapidly inhibited within 1 h, but had recovered by 4 h post irradiation. Mutation of serine 315 of p53 to alanine (p53-S315A) abolished phosphorylation by cdk2 kinase. However, wtp53 and p53-S315A were equally effective at activating transcription when cotransfected with a p53 reporter construct. The results demonstrate that ser 315 of p53 is phosphorylated by cdk2 in vitro. However, ser 315 of wtp53 is not required for transcriptional activity in vivo, suggesting that cdk2 phosphorylation of p53 may be involved in regulating other cellular functions of wtp53.
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PMID:Cdk2 kinase phosphorylates serine 315 of human p53 in vitro. 762 34

Wild-type p53 is a nuclear phosphoprotein that inhibits cell proliferation and represses transcriptionally most TATA box-containing promoters in transformed or tumor-derived cell lines. This study demonstrates that p53 alters transcription of the long control region (LCR) of human papillomavirus type 18 (HPV-18). Wild-type and mutant p53 143Val to Ala repressed the HPV-18 LCR promoter in normal human keratinocytes, the natural host cell for HPV infections. Repression by wild-type p53 was also observed in C-33A cells and in an HPV-16-immortalized cell line with an inducible wild-type p53. However, when C-33A cells were cotransfected with the HPV-18 LCR and mutant 143Val to Ala, repression did not occur. Mutant p53 135Cys to Ser did not induce repression in either normal human keratinocytes or in the C-33A line; although like 143Val to Ala, it is thought to affect the DNA binding activity of the wild-type protein. The ability of mutant p53 143Val to Ala to inactivate the HPV early promoter in normal cells (by approximately 60% reduction) suggests that this mutant may be able to associate with wild-type p53 and interact with TATA box-binding proteins. Therefore, these results demonstrate that the transcriptional activities of p53 mutants may be dependent upon the cell type assayed and the form of its endogenous p53. Furthermore, normal human keratinocytes represent an alternative model for determining the activities of p53 mutants.
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PMID:Transcriptional repression in normal human keratinocytes by wild-type and mutant p53. 775 99

Loss of p53 function has been shown to cause increased resistance to ionizing radiation in normal murine cells; however, the role of p53 in radioresistance of human tumor cells is less clear. Since wild-type p53 function is required for radiation-induced G1 arrest, we measured G1 arrest in 12 human tumor cell lines that have a wide range of radiosensitivities (surviving fraction at 2 Gy, 0.11-0.8). We observed a significant correlation between the level of ionizing radiation-induced G1 arrest and radiosensitivity. Cell lines having G1 arrest are more radiosensitive. There is no correlation between maximal G2 arrest and radiosensitivity. Expression of a dominant-negative mutant of p53 (codon 143, Val to Ala) in transfectants of the radiosensitive human ovarian cell line A2780 abrogates the radiation-induced G1 arrest. Such mutant p53 transfectants are more resistant to ionizing radiation than the parental line and vector-alone transfectants, as measured by clonogenic assays. These results support the concept that wild-type p53 function is required for sensitivity of tumor cells to DNA-damaging agents, such as ionizing radiation, and that the loss of p53 function in certain human tumor cells can lead to resistance to ionizing radiation.
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PMID:Cell cycle arrests and radiosensitivity of human tumor cell lines: dependence on wild-type p53 for radiosensitivity. 803 90

Mutation of the p53 gene is thought to be a late event in human colorectal carcinogenesis, involved in the malignant conversion of the adenoma to the carcinoma. One of the questions that we hoped to address was whether, in vivo, a single mutational event in one p53 gene is sufficient to confer a significant growth advantage on a colonic epithelial cell. Such a growth advantage could result either from an increase in growth rate and/or loss of response to inhibitory growth signals naturally present in the colonic crypt. We therefore introduced the pC53-SCX3 143 (Val-Ala) p53 mutation into a non tumorigenic adenoma derived cell line, AA/C1, which contained a truncating APC mutation, activating K-ras mutation but was wild-type for the p53 protein. High levels of mutant p53 protein were detected in the pC53-SCX3 transfected AA/C1 cell lines but was found not to affect either the in vitro (colony forming efficiency, anchorage independence) or in vivo (tumorigenicity in nude mice) growth, when compared to vector control or the parental AA/C1 cell line. In addition, to test whether the cells become less sensitive to inhibitory growth factors, the response of the cell lines to the naturally occurring growth inhibitor TGF beta was also investigated. Even though TGF beta had previously been implicated in the control of growth of intestinal epithelium, expression of the mutant p53 protein did not affect the sensitivity of the parental AA/C1 cell line to TGF beta. Under the experimental conditions tested expression of the 143 (Val-Ala) p53 protein was unable to affect the in vitro or in vivo growth characteristics of the adenoma derived AA/C1 cell line. When compared to other studies, these results suggest that the genetic background of the individual recipient cell may greatly influence the effect of expression of a particular p53 mutation.
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PMID:Transfection and expression of mutant p53 protein does not alter the in vivo or in vitro growth characteristics of the AA/C1 human adenoma derived cell line, including sensitivity to transforming growth factor-beta 1. 815 11

Overexpression of wild-type p53 prevents cells from entering the S phase of the cell cycle. The amino-terminal transactivation region of p53 is phosphorylated by several protein kinases, including DNA-PK, a nuclear serine/threonine protein kinase that in vitro requires DNA for activity. DNA-PK was recently shown to phosphorylate serines 15 and 37 of human p53 (Lees-Miller et al., 1992. Mol. Cell. Biol., 12, 5041-5049). To prevent phosphorylation at these sites, mutants were constructed that changed the codons for serine 15 or serine 37 to alanine codons. Expression of p53-Ala-37 in stably transformed T98G cells blocked progression of the cells into S phase as well as did the expression of wild-type p53. In contrast, p53-Ala-15 was partially defective in blocking cell cycle progression. Several cell clones transformed with the mutant p53-Ala-15 gene expressed normal levels of p53 mRNA but accumulated little or no detectable p53 protein. However, by using a transient expression system driven by a strong cytomegalovirus promoter, we showed that the inability of p53-Ala-15 to fully block cell cycle progression was not due to inadequate levels of expression or to a failure of the mutant protein to accumulate in the nucleus. These results suggest that phosphorylation of Ser-15 may affect p53 function.
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PMID:Mutation of the serine 15 phosphorylation site of human p53 reduces the ability of p53 to inhibit cell cycle progression. 850 77

HL60 cells, which lack the p53 gene due to a deletion, were used as an in vitro model system to study the effect of wild-type p53 gene expression on hematopoietic differentiation. We transfected HL60 cells with wild-type p53 and two mutant p53 cDNAs encoding the Val to Ala mutation at codon 143 and the Arg to Trp mutation at codon 248. Flow cytometry, growth, and cytochemical analysis for alpha-napthyl butyrate esterase activity and nitroblue tetrazolium reduction indicated that wild-type p53 but not mutant p53 induced early monocytic differentiation in the transfected HL60 cells without terminal growth arrest. The wild-type p53 transfectants did not differentiate along the granulocytic pathway, even when induced with 1.25% DMSO for 6 days; rather, these cells resembled monocytic cells, confirming that wild-type p53 transfection caused these cells to become committed to differentiate along the monocytic pathway. HL60 cells transfected with wild-type p53 were more sensitive to stress, such as growth in serum-depleted medium and exposure to a chemotherapeutic agent, etoposide.
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PMID:Transfection of wild-type but not mutant p53 induces early monocytic differentiation in HL60 cells and increases their sensitivity to stress. 856 79

The effects of exogenous human p53 and its various mutants (Ala-141, His-175, His-194, Trp-248, His-273) on two key enzymes of purine uptake, adenosine deaminase (AD) and hypoxanthine phosphoribosyl transferase (HPRT), has been studied in Rat 1 immortalized fibroblasts and their sublines transformed by N-RAS or v-mos oncogenes. Introduction into Rat1 cells of both wild type (wt) and mutant p53 produced a 2- to 7.5-fold increase in the AD activity, p53 mutants having a stronger effect than p53wt. In contrast, the HPRT activity decreased 8- to 10-fold in cells containing exogenous p53wt, while p53 mutants partly lost their ability to inhibit HPRT. Transformation of Rat1 by ras or mos oncogenes was also accompanied by an increase in the AD activity (4-5-fold and 1.5-2-fold, respectively) as well as by suppression of HPRT (20-fold and 2-fold, respectively). However, simultaneous expression of exogenous p53 and ras or p53 and mos produced opposite effects, i.e., a dramatic decrease in the AD activity and complete (p53wt, His-273) or partial (His-175, Trp-248) restoration of the HPRT activity. Possible functional significance and mechanisms of AD and HPRT regulation by p53 as well as the role of modifications of activity of nucleotide synthesis enzymes in the cooperative effect of predominant oncogenes and mutant p53 oncogenes in tumour transformation are discussed.
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PMID:[Opposite effect of p53 on nucleotide metabolizing enzyme activity in Rat1 cells and their sublines, transformed by N-RAS or v-mos oncogenes]. 859 Jul 59

We have examined in detail the DNA binding properties of several immunopurified tumor-derived mutant p53 proteins (Val-143 --> Ala, Arg-175 --> His, Arg-248 --> Trp, Arg-249 --> Ser, and Arg-273 --> His). While all mutants were defective for binding to DNA at 37 ;C, each bound specifically to several cognate p53 binding sites at sub-physiological temperatures (25-33 ;C), and several mutants activated transcription from a p53-responsive promoter at 26 degrees C in transfected H1299 cells. Heating mutant p53 proteins at 37 degrees C irreversibly destroyed their ability to subsequently bind at 25 degrees C. However, several different monoclonal antibodies that each share the ability to recognize an epitope encompassing amino acids 46-55 markedly stabilized binding by mutant p53 proteins at 37 degrees C. Both intact antibody and FAb fragments allowed mutant p53 to bind to DNA. By contrast, antibodies that recognize epitopes located elsewhere within p53 stabilized mutant p53 binding significantly less effectively. Our data show that the major hot-spot p53 mutants have the intrinsic ability to bind to DNA and that a unique region within the N terminus of p53 may be critical for rescuing them from loss of binding at physiological temperatures. This suggests the possibility of developing small molecules that can stabilize mutant p53 proteins under physiological conditions.
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PMID:Regulation of mutant p53 temperature-sensitive DNA binding. 881 Mar 17

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