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)

Cell extracts of the thermophile Clostridium thermohydrosulfuricum catalyzed the phosphorylation by [gamma-32P]ATP of several endogenous proteins with Mrs between 13,000 and 100,000. Serine and tyrosine were the main acceptors. Distinct substrate proteins were found in the soluble (e.g., proteins p66, p63, and p53 of Mrs 66,000, 63,000, and 53,000, respectively) and particulate (p76 and p30) fractions, both of which contained protein kinase and phosphatase activity. The soluble fraction suppressed the phosphorylation of particulate proteins and contained a protein kinase inhibitor. Phosphorylation of p53 was promoted by 10 microM fructose 1,6-bisphosphate or glucose 1,6-bisphosphate and suppressed by hexose monophosphates, whereas p30 and p13 were suppressed by 5 microM brain (but not spinach) calmodulin. Polyamines, including the "odd" polyamines characteristic of thermophiles, modulated the labeling of most of the phosphoproteins. Apart from p66, all the proteins labeled in vitro were also rapidly labeled in intact cells by 32Pi. Several proteins strongly labeled in vivo were labeled slowly or not at all in vitro.
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PMID:Phosphorylation of proteins in Clostridium thermohydrosulfuricum. 241 9

Human T-lymphocyte cell line termed MT-2 is producing persistently HTLV-I virion and has a strong potential to transform human T-lymphocytes when cocultivated. The virion of HTLV-I (MT-2) was isolated and its RNA was extracted to analyze the gene and gene products of HTLV-I. HTLV (MT-2) virion RNA was translated in a rabbit reticulocyte lysate system in vitro in which a gag precursor polyprotein (p53) and a putative gag-prt fusion protein (p76) were synthesized from a full length 35S RNA. The full length provirus, HTLV-I (MT-2), was molecularly cloned and its genomic expression was examined transiently and permanently by transfecting in human lymphoid and non-lymphoid cells. The cloned provirus expressed the same virological activities as observed in naturally occurring infection of the virus. A new protease gene of HTLV-I was found and its function of the gene product was studied.
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PMID:Genomic expressions of human T-lymphotropic virus (HTLV-I). 303 Mar 51

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

MDM-2 is a cellular oncoprotein that binds to the p53 protein and abrogates its growth-suppressing function. At least seven MDM-2 mRNAs and five proteins (p90, p85, p76, p74, and p57) have been reported in tissue culture. MDM-2 gene amplification occurs in human sarcomas and high-grade gliomas. MDM-2 overexpression without gene amplification has been reported in leukemias and lymphomas. Here we report MDM-2 mRNA overexpression in 24 (73%) out of 33 cases of human breast carcinoma as compared with normal breast tissue. The MDM-2 overexpression was seen in the absence of MDM-2 gene amplification. MDM-2 protein expression was studied by western blot analysis in 21 of these cases of carcinoma. We found complete concordance between MDM-2 mRNA overexpression and MDM-2 protein levels. MDM-2 proteins were overexpressed in 15 of 21 breast carcinoma tissue samples but not in normal breast tissue controls. Ten of these fifteen cases overexpressed MDM-2 p57 protein, two cases overexpressed both p57 and p90, and three cases overexpressed only p90. MDM-2 overexpression was confirmed by immunohistochemistry. p53 overexpression was also studied by immunohistochemistry, 69% of breast carcinomas that overexpressed the MDM-2 mRNA had detectable nuclear p53 protein. These findings demonstrate that MDM-2 oncoprotein expression is altered in primary human breast carcinomas at both mRNA and protein levels. In addition, our results suggest that MDM-2 p57 protein represents the main MDM-2 protein altered in breast carcinomas.
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PMID:Abnormal expression of MDM-2 in breast carcinomas. 875 May 85

Forty-one bronchogenic carcinomas were investigated for expression of MDM2 protein isoforms and their relationship to p53 protein levels and p53 gene alterations using molecular and immunohistochemical techniques. The findings were correlated with the pathological features of the carcinomas. MDM2 protein was overexpressed in 26 cases (63 percent). Western blot analysis with two monoclonal antibodies, 1B10 and IF2, revealed three MDM2 protein isoforms, p90, p57 and p76/74. p90 and p57 are capable of interacting with p53 protein, while p76/74 is not. Various patterns of MDM2 isoforms were seen. Although no correlation between the patterns and pathological features was observed, lymph node metastases were more frequent in the cases with MDM2 overexpression (P < 0.005). In 3 out of 17 specimens of normal lung tissue examined, there was a low level of expression of p90. Molecular analysis revealed that MDM2 overexpression was a consequence of increased transcription rather than MDM2 gene amplification. p53 protein was overexpressed in 21 cases (51 percent) and p53 gene alterations (mutations + allelic deletions) were detected in 23 patients (56 percent). A high degree of concordance (76 percent) between p53 mutations and p53 staining was noticed (P < 10(-5)). p53 gene alterations were significantly associated with lymph node disease (P < 0.01). MDM2 and p53 proteins were simultaneously detected in 21 cases (51 percent), of which 17 (42 percent) showed p53 and MDM2 overexpression. The latter group was positively correlated with p53 mutations (P < 0.05). A strong correlation between MDM2/p53 co-expression and lymph node metastases was observed (P < 0.001). The findings suggest that MDM2 overexpression is a common event in bronchogenic carcinoma. The selective expression of some MDM2 isoforms in neoplastic tissue and not in the surrounding normal areas underscores the pathological role of the various MDM2 products. Finally, the coexistence of MDM2 protein(s) and p53 aberrations (mutations and/or overexpression) in a subset of lung carcinomas may be indicative of a 'gain of function' phenotype, with more aggressive characteristics.
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PMID:A molecular and immunohistochemical study of the MDM2 protein isoforms and p53 gene product in bronchogenic carcinoma. 897 69

The mdm2 (murine double minute 2) oncogene encodes several proteins, the largest of which (p90) binds to and inactivates the p53 tumor suppressor protein. Multiple MDM2 proteins have been detected in tumors and in cell lines expressing high levels of mdm2 mRNAs. Here we show that one of these proteins (p76) is expressed, along with p90, in wild-type and p53-null mouse embryo fibroblasts, indicating that it may have an important physiological role in normal cells. Expression of this protein is induced, as is that of p90, by UV light in a p53-dependent manner. The p76 protein is synthesized via translational initiation at AUG codon 50 and thus lacks the N terminus of p90 and does not bind p53. In cells, p90 and p76 can be synthesized from mdm2 mRNAs transcribed from both the P1 (constitutive) and P2 (p53-responsive) promoters. Site-directed mutagenesis reveals that these RNAs give rise to p76 via internal initiation of translation. In addition, mdm2 mRNAs lacking exon 3 give rise to p76 exclusively, and such mRNAs are induced by p53 in response to UV light. These data indicate that p76 may be an important product of the mdm2 gene and a downstream effector of p53.
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PMID:Multiple murine double minute gene 2 (MDM2) proteins are induced by ultraviolet light. 1007 19

The mdm2 oncogene encodes p90(MDM2), which binds to and inactivates the p53 tumor suppressor protein. p90(MDM2) inhibits p53 by blocking the transcriptional activation domain of p53 as well as by stimulating its degradation. Recently, we showed that another product of the wild-type mdm2 gene, p76(MDM2), lacks the first 49 amino acids of p90(MDM2) and cannot bind p53. Here, we report that, like p90(MDM2), p76(MDM2) is expressed in both the nuclear and cytoplasmic compartments. Overexpression of p76(MDM2) antagonizes the ability of p90(MDM2) to stimulate the degradation of p53 and leads to an increase in the levels and activity of p53. Seven murine tissues express an alternatively spliced mdm2 mRNA that can encode p76(MDM2) but not p90(MDM2), as well as the normally spliced mdm2 mRNA that encodes both MDM2 proteins. All seven tissues express both MDM2 proteins. p90(MDM2) is much more abundant than p76(MDM2) in the testis, brain, heart, and kidney. However, in those tissues known to undergo p53-mediated apoptosis in response to gamma-irradiation, the thymus, spleen, and intestine, the levels of the MDM2 proteins are roughly equivalent. Our results indicate that the ratio of the two MDM2 proteins may regulate the response of tissues to DNA damage.
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PMID:p76(MDM2) inhibits the ability of p90(MDM2) to destabilize p53. 1068 59

A histidine-tagged, carboxy-terminal fragment of the murine double minute 2 gene product, p90(MDM2), was purified by Ni--NTA chromatography and preparative gel electrophoresis. The purified MDM2 fragment was used to generate polyclonal antisera that recognize multiple species of MDM2 proteins, including the inhibitor of p53, p90(MDM2), as well as the activator of p53, p76(MDM2). The antibodies are useful for Western analysis, immunoprecipitation, and immunofluorescence.
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PMID:Purification of a fragment of MDM2 for production of polyclonal antisera. 1123 99

The murine double minute 2 (mdm2) gene is essential for embryogenesis in mice that express the p53 tumor suppressor protein. Mdm2 levels must be regulated tightly because overexpression of mdm2 contributes to tumorigenesis. We investigated whether the 5' and 3' untranslated regions (UTRs) of murine mdm2 affect the expression of MDM2 proteins. Induction of mdm2 expression by p53 results in synthesis of an mdm2 mRNA with a short 5' UTR. The long 5' UTR increases internal initiation of translation of a minor MDM2 protein, p76(MDM2), without affecting the efficiency of translation of the full-length p90(MDM2). We discovered two alternative 3' untranslated regions in murine mdm2 mRNA expressed in the testis. The longer 3' UTR contains a consensus instability element, but mdm2 mRNAs containing the long and short 3' UTRs have comparable half-lives. The 3' UTRs do not affect either initiation codon use or translation efficiency. Thus, the murine 5' UTR, but not the 3'UTR, influences the ratio of the two MDM2 proteins but neither UTR affects MDM2 abundance significantly.
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PMID:Characterization of the 5' and 3' untranslated regions in murine mdm2 mRNAs. 1124 88

The tumor suppressor Rb (retinoblastoma protein) is known to regulate p53-dependent apoptosis, but the mechanisms involved are unclear. In a rat fibroblast model, we previously observed that caspase inhibition potentiates p53-dependent apoptosis and prevents the Rb cleavage associated with p53 activation. These results suggested that a caspase(s) can antagonize p53-mediated apoptosis via the production of a protective Rb truncated form. Here, we identify caspase-9 as the caspase that interferes, upstream of the mitochondrion, with p53-induced apoptosis in both immortalized and primary fibroblasts. This caspase can be detected as a p38 processed form in living cells, in the absence of apoptosome formation and apoptotic signal. We also provide evidence that the involvement of caspase-9 in a pre-mitochondrial protective pathway results from the previously undescribed cleavage of Rb, at a LExD site, into a p76(Rb) form, which antagonizes p53-induced apoptosis. These results establish that a truncated form of Rb can display an antiapoptotic activity, rather than just being a by-product of Rb degradation.
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PMID:Caspase-9 can antagonize p53-induced apoptosis by generating a p76(Rb) truncated form of Rb. 1573 1

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