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)

Monoclonal antibodies, one against the adenovirus type 5 E1B 55-kDa protein and one against the E1B 21-kDa protein, have been isolated and shown to recognize the same proteins as antitumor sera. Immunofluorescence studies with these monoclonal antibodies on transformed cells containing the complete adenovirus early region 1, showed that the E1B 21-kDa protein is localized in the perinuclear region. The E1B 55-kDa protein is localized in a number of different sites: a strong fluorescence is observed in a discrete body in the cytoplasm close to the nucleus, a moderate fluorescence is found in cell-cell contacts, and a weak staining in the cytoplasm. The cellular p53 antigen, which is associated with the E1B 55-kDa protein, is also found in the discrete cytoplasmic body, but not, or only in small amounts at the cell-cell contacts. However, p53 is not seen in the cytoplasm outside the discrete body, but the nucleus is weakly positive. The nature of the discrete cytoplasmic body was investigated further by electron microscopy and was found to be composed of a cluster of 8-nm filaments. The diameter of the filaments is similar to that of cytoskeletal intermediate filaments. However, staining with antibodies against the various intermediate filament proteins did not show a significant reaction with the cluster, while vimentin intermediate filaments could be demonstrated in the cells in a typical cytoskeletal pattern. It was also shown that the cluster is not composed of incorrectly aggregated tubulin.
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PMID:Localization of the E1B proteins of adenovirus 5 in transformed cells, as revealed by interaction with monoclonal antibodies. 293 43

The distribution and stability of the cellular tumor antigen p53 were studied in baby rat kidney cells transformed by region E1 sequences of nononcogenic adenovirus (Ad) type 5 (Ad5) or oncogenic type 12 (Ad12). In transformed cells expressing the large E1B T antigen of Ad5, p53 was associated with this T antigen. The complexed proteins were concentrated in a cytoplasmic body, which has been shown to consist of a cluster of 8-nm filaments (A. Zantema et al., Virology 142:44-58, 1985). In transformed cells expressing the E1B region of Ad12, however, no association between the viral large T antigen and p53 was detectable. In the latter case, both proteins were found almost exclusively in the nucleus. The stability of p53 in both Ad5- and Ad12-transformed cells was increased relative to that in primary cells or cells immortalized by the E1A region only. Thus, the increased stability of p53 in Ad-transformed cells is not caused by association with a viral T antigen, but it correlates with expression of E1B and with morphological transformation.
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PMID:Adenovirus serotype determines association and localization of the large E1B tumor antigen with cellular tumor antigen p53 in transformed cells. 294 83

Expression of the p53 cellular phosphoprotein was examined in rat cells transformed by adenovirus 12 (Ad12) virions and by fragments of Ad12 DNA. p53 was detected in all the cell lines examined. Steady-state levels of p53 were highest in cells transformed by the entire E1 region rather than by E1A alone. Physical association between p53 and the Ad12 E1B 55K protein was not detected. The Ad12 E1B-encoded 55K protein, but not the Ad12 E1B 17K and 19K proteins, appears to participate in regulating p53 protein levels.
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PMID:Expression of the cellular p53 protein in cells transformed by adenovirus 12 and viral DNA fragments. 296 54

Oligomeric protein complexes containing the nuclear oncogene p53 and the simian virus 40 large tumor antigen (D. I. H. Linzer and A. J. Levine, Cell 17:43-51, 1979), the adenovirus E1B 55-kilodalton (kDa) tumor antigen, and the heat shock protein hsc70 (P. Hinds, C. Finlay, A. Frey, and A. J. Levine, Mol. Cell. Biol. 7:2863-2869, 1987) have all been previously described. To begin isolating, purifying, and testing these complexes for functional activities, we have developed a rapid immunoaffinity column purification. p53-protein complexes are eluted from the immunoaffinity column by using a molar excess of a peptide comprising the epitope recognized by the p53 monoclonal antibody. This mild and specific elution condition allows p53-protein interactions to be maintained. The hsc70-p53 complex from rat cells is heterogeneous in size, with some forms of this complex associated with a 110-kDa protein. The maximum apparent molecular mass of such complexes is 660,000 daltons. Incubation with micromolar levels of ATP dissociates this complex in vitro into p53 and hsc70 110-kDa components. Nonhydrolyzable substrates of ATP fail to promote this dissociation of the complex. Murine p53 synthesized in Escherichia coli has been purified 660-fold on the same antibody affinity column and was found to be associated with an E. coli protein of 70 kDa. Immunoblot analysis with specific antisera demonstrated that this E. coli protein was the heat shock protein dnaK, which has extensive sequence homology with the rat hsc70 protein. Incubation of the immunopurified p53-dnaK complex with ATP resulted in the dissociation of the p53-dnaK complex as it did with the p53-hsc70 complex. This remarkable conservation of p53-heat shock protein interactions and the specificity of dissociation reactions suggest a functionally important role for heat shock proteins in their interactions with oncogene proteins.
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PMID:Purification of complexes of nuclear oncogene p53 with rat and Escherichia coli heat shock proteins: in vitro dissociation of hsc70 and dnaK from murine p53 by ATP. 328 77

The intracellular distribution of the transformation-associated cellular protein p53 was studied by indirect immunofluorescence in a series of adenovirus-transformed rodent cells. In most adenovirus 2 or 5 (group C) transformed cell lines p53 was detected in discrete areas in nuclei and in all cell lines p53 was also present in a perinuclear structure. The adenovirus 2 or 5 E1B-58 kD protein, previously found to form molecular complexes with p53 in group C transformed cells, colocalized with p53 in both intracellular locations. Further studies on the region of the cell corresponding to the perinuclear body containing p53 showed that it frequently included the centrosomes of the transformed cell. The intranuclear p53 was released by mild DNAase I digestion.
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PMID:The intracellular distribution of the transformation-associated protein p53 in adenovirus-transformed rodent cells. 329 Aug 6

The level of expression of thymidine kinase (TK), heat shock protein 70 (HSP70), beta-tubulin and p53 was assessed in human embryo kidney cells (HEKs) infected with adenovirus type 12 (Ad 12) and Ad 12 early region 1 (E1) mutants. HSP70, beta-tubulin and p53 levels were unchanged but TK activity was dramatically increased following wild-type infection. The initial activation of TK required the expression of the product of the E1A 13S mRNA but sustained expression only occurred with those viruses expressing the E1B proteins as well. A number of human cell lines transformed with either Ad 12 or Ad 5 E1 DNA were also assessed for the level of expression of HSP70, beta-tubulin and p53. Both HSP70 and beta-tubulin levels were greatly increased compared with primary human cells although there was considerable variation between lines. p53 was only expressed at high levels in Ad 12-transformed lines expressing E1A and E1B proteins.
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PMID:Modulation of the level of expression of cellular genes in adenovirus 12-infected and transformed human cells. 352 49

In soluble protein extracts obtained from adenovirus productively infected cells, monoclonal antibodies directed against the early region 1B 58,000-dalton (E1B-58K) protein immunoprecipitated, in addition to this protein, a polypeptide of 25,000 molecular weight. An analysis of tryptic peptides derived from this 25K protein demonstrated that it was unrelated to the E1B-58K protein. The tryptic peptide maps of the 25K protein produced in adenovirus 5 (Ad5)-infected HeLa cells and BHK cells were identical, whereas Ad3-infected HeLa cells produced a different 25K protein. The viral origin of this 25K protein was confirmed by an amino acid sequence determination of five methionine residues in two Ad2 tryptic peptides derived from the 25K protein. The positions of these methionine residues in the 25K protein were compared with the nucleotide sequence of Ad2 and uniquely mapped the gene for this protein to early region 4, subregion 6 of the viral genome. A mutant of Ad5 was obtained (Ad5 dl342) which failed to produce detectable levels of the E1B-58K protein. In HeLa cells infected with this mutant, monoclonal antibodies directed against the E1B-58K protein failed to detect the associated 25K protein. In 293 cells infected with Ad5 dl342, which contain an E1B-58K protein encoded by the integrated adenovirus genome, the mutant produced an E4-25K protein which associated with the E1B-58K protein derived from the integrated genome. Extracts of labeled Ad5 dl342-infected HeLa cells (E1B-58K-) were mixed in vitro with extracts of unlabeled Ad5 wild type-infected HeLa cells or 293 cells (E1B-58K+). When the mixed extracts were incubated with the E1B-58K monoclonal antibody, a labeled E4-25K protein was coimmunoprecipitated. When extracts of Ad5 dl342-infected HeLa cells and uninfected HeLa cells (both E1B-58K-) were mixed, the E1B-58K monoclonal antibody failed to immunoselect the E4-25K protein. These data provide evidence that the E1B-58K antigen is physically associated with an E4-25K protein in productively infected cells. This is the same E1B-58K protein that was previously shown to be associated with the cellular p53 antigen in adenovirus-transformed cells.
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PMID:Adenovirus early region 1B 58,000-dalton tumor antigen is physically associated with an early region 4 25,000-dalton protein in productively infected cells. 669 35

P53 can both stimulate transcription via the p53-consensus sequence as well as inhibit gene expression via CAAT-TATA-sequences. Certain viral and cellular proteins can abrogate the p53-dependent stimulation of transcription by physical association. In addition, it has been shown that the large E1B protein of adenovirus type 12 (Ad12), E1B/54 kDa, can block the transcription activation potential of p53, without binding to p53. Here we show that this E1B/54-kDa protein also can prevent the repression of transcription of transfected and endogenous p53 in transient transfections. In cells containing wild-type p53 but stably expressing high levels of E1B/54 kDa, no induction of WAF1 mRNA after X-ray irradiation could be detected. In contrast, expression of another non-p53 binding E1B protein, Ad5 E1B/21 kDa has no effect on WAF-1 expression. Results of an electromobility shift assay indicated that the abrogation of p53-mediated transcription activation by E1B/54 kDa cannot be explained by inhibition of the DNA-binding capacity of p53. A biological consequence of expression of E1B/54 kDa is the loss of G1 cell-cycle arrest after X-ray irradiation, while cells expressing the E1B/21 kDa still arrest in G1 after DNA damage.
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PMID:Distinct modulation of p53 activity in transcription and cell-cycle regulation by the large (54 kDa) and small (21 kDa) adenovirus E1B proteins. 757 24

Hygromycin B, an aminoglycoside antibiotic that is widely used to establish stable mammalian cell lines that carry a bacterial gene conferring resistance to the drug, is shown here to induce apoptotic programmed cell death in susceptible cells. Dying cells exhibited typical features of apoptosis, including cell shrinkage, membrane blebbing, nuclear pyknosis, and extensive internucleosomal fragmentation of DNA. Employing concentrations of hygromycin B that are typically used for selecting stable cell lines, we show that susceptible cells die rapidly, exhibiting the morphological properties of apoptosis by 18 h and detectable DNA fragmentation as early as 2 h after receiving the drug. G418, on the other hand, required days to cause cell death, which was not accompanied by internucleosomal DNA fragmentation. Apoptotic cell killing by hygromycin B did not require expression of wild-type p53 and was suppressed by both Bcl-2 and the Adenovirus type 5 E1B 19-kDa protein.
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PMID:Induction of p53-independent apoptosis by hygromycin B: suppression by Bcl-2 and adenovirus E1B 19-kDa protein. 758 55

The cellular protein MDM2 can bind to the tumor suppressor gene product p53 and abrogate its transcriptional activity. In addition, p53 can regulate expression of the mdm2 gene. We and others have previously shown that p53 is present at high levels in adenovirus-transformed cells which express the larger E1B protein. In view of these observations the expression of MDM2 in a panel of adenovirus transformed human cell lines has been examined. Two major species (98K and 80K) were detected, together with a number of minor species of higher and lower molecular weight. While there was little variation in levels of 98K protein between cell lines, appreciable differences in the expression of the 80K component were apparent. There was no correlation between MDM2 and p53 expression in any of the adenovirus transformants, nor with the viral proteins expressed. The pattern and level of MDM2 detected was similar to that seen in human tumor cell lines and in human fetal tissue. Northern blot analysis suggested that MDM2 expression was regulated at the transcriptional level. Stable interactions were observed between p53 and MDM2 in the adenovirus-transformed cell lines and in Ad5 E1 HEK 293 cells a ternary complex of p53, MDM2, and the Ad5 E1B 58K protein was demonstrated. In view of the lack of correlation between the level of p53 and MDM2 in adenovirus E1-transformed cells, the capacity of p53 to cause transcriptional activation was assessed using transfected CAT constructs linked to p53 responsive elements. p53 transcriptional activity was similar in all of the cell lines examined and did not correlate with protein expression. It is concluded, on the basis of all of these data, that the high concentrations of p53 found in adenovirus transformants are not transcriptionally active and have no influence on MDM2 expression. However, when expression of p53 was increased following infection with mutant adenoviruses, which do not express the larger E1B proteins, there was an appreciable increase in p53 transcriptional activity and in the levels of all of the MDM2 components.
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PMID:The high levels of p53 present in adenovirus early region 1-transformed human cells do not cause up-regulation of MDM2 expression. 761 70

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