Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A cellular phosphoprotein with an apparent molecular mass of 90 kd (p90) that forms a complex with both mutant and wild-type p53 protein has been characterized, purified, and identified. The protein was identified as a product of the murine double minute 2 gene (mdm-2). The mdm-2 gene enhances the tumorigenic potential of cells when it is overexpressed and encodes a putative transcription factor. To determine if mdm-2 could modulate p53 transactivation, a p53-responsive element from the muscle creatine kinase gene was employed. A wild-type p53-expressing plasmid enhanced the expression of the p53-responsive element when cotransfected into cells that contain no endogenous p53. When a cosmid expressing mdm-2 was transfected with this p53-expressing plasmid, the transactivation of the p53-responsive element was inhibited. Thus, a product of the mdm-2 oncogene forms a tight complex with the p53 protein, and the mdm-2 oncogene can inhibit p53-mediated transactivation.
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PMID:The mdm-2 oncogene product forms a complex with the p53 protein and inhibits p53-mediated transactivation. 153 57

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

This study was undertaken to determine the expression of p53 gene in cytologic specimens from benign and malignant breast lesions. To detect p53 an immunocytochemical assay with p53 (pAb421) monoclonal antibody was used. Abnormalities in p53 expression were found in 19 out of 40 Fine Needle Aspiration (FNA) smears with infiltrating ductal breast carcinomas. Benign epithelial breast cells obtained from fibroadenomas, fibrocystic disease and smears from nipple discharge reacted negatively for p53 in 38 out of 39 cases. Moderate positive reaction, confined to a few clusters of epithelial cells, was observed in one smear of fibroadenoma with cellularity. The results recorded in this study show that no significant association was found between p53 staining and stage of disease, tumor size or nodal status and that the immunocytochemical assay represents a simple method for the detection of p53 associated proteins in breast lesions.
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PMID:p53 expression in cytologic specimens from benign and malignant breast lesions. 174 98

Viral and cellular oncogene products sometimes activate protein kinases, are protein kinases themselves, or share phosphorylation sequence motifs for different protein kinases. We have recently shown that a protein kinase activity is tightly associated with immunopurified p53. We have now expressed p53 in a baculovirus expression system and characterized this protein kinase activity in more detail. We found that casein could compete with p53 in the kinase reaction. Heparin efficiently inhibited the p53 associated protein kinase whereas the polyamine spermidine stimulated enzymatic activity. A synthetic peptide which was shown to be specifically phosphorylated by casein kinase II blocked the in vitro phosphorylation of p53, whereas a synthetic peptide with a potential phosphorylation site on human p53 at ser 315 was ineffective in blocking the phosphorylation of p53. GTP as well as ATP can be used as a phosphate donor in the in vitro kinase reaction. An antibody directed against casein kinase II coprecipitated p53 from insect cells as well as from mammalian cells. These data strongly indicate that casein kinase II is associated with immunopurified p53 and contributes to the phosphorylation of p53. A mutant p53 with a ser 389 to ala exchange was not phosphorylated in vitro by the p53 associated protein kinase.
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PMID:Association of casein kinase II with immunopurified p53. 205 62

Cellular phosphoprotein p53, which seems to be a multifunctional protein, may be assigned to different structural subclasses. Recently established immortalized or transformed cell lines that overexpress p53 allowed us to perform a detailed analysis of the quaternary structure of p53. By means of sucrose density gradient centrifugation, we found in simian virus 40-transformed cells that overexpress p53, in addition to high-molecular-weight T-p53 complexes, low-molecular-weight forms. The level of T-p53 complexes within simian virus 40-transformed cells seemed to be determined by the intracellular concentration of p53. However, the presence of uncomplexed T antigen and p53 indicated that an appropriate modification of at least one of the two proteins appears to be necessary for complex formation. Using different monoclonal antibodies that distinguish between (i) p53 associated with T antigen or heat shock proteins and (ii) p53 in apparently free form, we found p53 from transformed cells always in high-molecular-weight forms. p53 from normal and immortalized cells, however, was found mainly in low-molecular-weight forms. Pulse-labeling experiments revealed that oligomerization of p53 is a very rapid process. Monomeric forms of p53 which could be detected only by 2 min of pulse-labeling were rapidly converted to stable, high-molecular-weight oligomers. Furthermore, our data indicate a correlation between the occurrence of p53 in high-molecular-weight forms and the transformation state of the cell.
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PMID:Oligomerization of oncoprotein p53. 305 53

A transformation-related protein of M(r) 53,000, designated p53, has been detected in a range of neoplastic cell types of the mouse by using immunoprecipitation of [(35)S]-methionine-labeled cell extracts with mouse antiserum [DeLeo, A. B., Jay, G., Appella, E., DuBois, G. C., Law, L. W. & Old, L. J. (1979) Proc. Natl. Acad. Sci. USA 76, 2420-2424]. We have now prepared a monoclonal antibody to p53 and have used it to study the occurrence and intracellular location of p53 by indirect immunofluorescence assays. In accordance with the results of immunoprecipitation, these tests showed p53 in all 13 transformed mouse cell lines studied. In each case, p53 was found in the nucleus. No p53 was detected in normal mouse fibroblasts, 3T3 cells, bone marrow cells, thymus cells, or embryo cells. A serologically related protein was detected in the nucleus of human cells by monoclonal antibody and was found in both normal and neoplastic cultured cells. Expression of p53 in human cells correlates with the growth characteristics of the culture, high p53 levels being associated with rapid cell proliferation and low p53 levels, with cessation of cell division. Normal and malignant human cells differ, however, with regard to the effect of confluency on p53 expression. Normal kidney epithelium and fetal brain cells, which express high p53 levels during exponential growth, show a prompt decrease in p53 associated with contact inhibition of cell division. Malignant cells, on the other hand, continue to express p53 after confluency and subsequent overgrowth of the monolayers. These results suggest that p53 may be involved in the normal regulation of cell division and that malignant transformation leads to abnormalities in the control of p53 expression.
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PMID:p53 transformation-related protein: detection by monoclonal antibody in mouse and human cells. 694 Jan 83

Fifty-three non-small cell lung carcinomas (NSCLC), previously investigated for p53 abnormalities, were studied to evaluate the status of the mdm2 gene by Southern and Northern blot analysis and expression of the mdm2 protein by immunohistochemistry with specific monoclonal antibodies. Amplification and overexpression of the mdm2 gene and nuclear accumulation of its protein product were observed in three (6%) of the NSCLC examined. All of the tumors having mdm2 abnormalities belonged to a subset of NSCLC characterized by a strong accumulation of the p53 protein in the absence of p53 gene mutations. Since mdm2 is capable of forming tight complexes with p53, possibly stabilizing it, our results suggest that this event may take place in a low percentage of NSCLC. Moreover, all of the mdm2-positive tumors were histologically classified as lung adenocarcinomas. This may indicate that the mdm2 gene is preferentially altered in this particular subtype of lung tumors.
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PMID:mdm2 gene amplification and overexpression in non-small cell lung carcinomas with accumulation of the p53 protein in the absence of p53 gene mutations. 755 Dec 99

The 90-kDa cellular protein encoded by the mouse mdm-2 oncogene binds to the p53 protein in vivo and inhibits its transactivation function (J. Momand, G. P. Zambetti, D. C. Olson, D. George, and A. J. Levine, Cell 69:1237-1245, 1992). cDNA clones encoding the human homolog of the mdm-2 protein (also called hdm-2) were isolated from a HeLa cell cDNA library. A series of monoclonal antibodies have been generated against human mdm-2 protein, and the epitopes recognized by these antibodies have been mapped. By construction of a series of deletion mutants, the region of the mdm-2 protein that is critical for complex formation with the p53 protein has been mapped to the N-terminal portion of the human mdm-2 protein. Interestingly, a monoclonal antibody with an epitope located in this same region failed to immunoprecipitate the mdm-2-p53 complex and appeared to recognize only free mdm-2 protein. The domain of the p53 protein that is sufficient for interaction with human mdm-2 protein has been mapped to the N-terminal 52 amino acid residues of the p53 protein. This region contains the transactivation domain of p53, suggesting that mdm-2 may inhibit p53 function by disrupting its interaction with the general transcription machinery.
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PMID:Mapping of the p53 and mdm-2 interaction domains. 768 17

A protein product of the mdm-2 oncogene (p90) has been recently shown to associate with the protein encoded by the tumor-suppressor gene p53. The mdm-2 gene was originally identified as a gene amplified in a spontaneously transformed Balb/c 3T3 cell line (3T3DM). This report describes the characterization of mdm-2 gene products and their interactions with the p53 protein. Polyclonal and monoclonal antibodies were generated against murine and human mdm-2 protein. These antibodies detected the mdm-2 p90 protein and at least four additional polypeptides (p85, p76, p74, p58-p57) in cultured cells. These additional proteins may arise from different spliced mRNA forms of the mdm-2 gene or post-translational modifications of the mdm-2 protein. The monoclonal antibodies distinguished at least three sets of mdm-2 proteins with distinct combinations of epitopes (p90 and p85; p76 and p74; p58-57). One or two of these proteins forms a complex with the p53 protein (p90, p58). These mdm-2 proteins were found to be overexpressed in 3T3DM cells and a subset of these proteins were complexed with p53. In 3T3DM cells, p90, like p53, had a short half-life of approximately 20 min and was localized to the cell nucleus. In resting cells stimulated with serum p90 levels and p90/p53 complex levels increased in the late G1 phase of the cell cycle. The p90 mdm-2 protein could regulate p53 activity in the late G1 phase of the cell cycle.
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PMID:Identification and characterization of multiple mdm-2 proteins and mdm-2-p53 protein complexes. 768 21

The tumour suppressor protein p53 normally functions as a tetramer in a defined conformational state. Mutations within p53 which contribute to cancer development frequently induce a conformational shift in the protein which correlates with loss of wild type growth suppressor functions. Both the cell encoded mdm2 protein and the human papillomavirus oncoprotein E6 can regulate p53 function and we have examined the interaction of these proteins with p53. The E6/p53 association is sensitive to conformational alterations in the p53 protein, although oligomerisation is not necessary for this interaction to occur. Analysis of C-terminal p53 truncations has indicated that the region between residues 327 and 347 may play a role in E6 binding. Since monomeric forms of p53 retain transcriptional and transformation suppressor activities, our results indicate that E6 targets p53 proteins which retain these wild type functions. Conversely, the interaction of p53 with mdm2 is not dependent on the conformation of the p53 protein but is significantly impaired by loss of quaternary structure. It is possible that mdm2 plays a role in mediating activities of p53 which, unlike transcriptional activation, depend on oligomerisation.
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PMID:Oligomerisation of full length p53 contributes to the interaction with mdm2 but not HPV E6. 775 47


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