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)

The adenovirus E1A oncogene products stimulate DNA synthesis and cell proliferation but fail to transform primary baby rat kidney (BRK) cells because of the induction of p53-mediated programmed cell death (apoptosis). Overexpression of dominant mutant p53 (to abrogate wild-type p53 function) or introduction of apoptosis inhibitors, such as adenovirus E1B 19K or Bcl-2 oncoproteins, prevents E1A-induced apoptosis and permits transformation of BRK cells. The ability of activated Harvey-ras (H-ras) to cooperate with E1A to transform BRK cells suggests that H-ras is capable of overcoming the E1A-induced, p53-dependent apoptosis. We demonstrate here that activated H-ras was capable of suppressing apoptosis induced by E1A and wild-type p53. However, unlike Bcl-2 and the E1B 19K proteins, which completely block apoptosis but not p53-dependent growth arrest, H-ras expression permitted DNA synthesis and cell proliferation in the presence of high levels of wild-type p53. The mechanism by which H-ras regulates apoptosis and cell cycle progression is thereby strikingly different from that of the E1B 19K and Bcl-2 proteins. BRK cells transformed with H-ras and the temperature sensitive murine mutant p53(val 135), which lack E1A, underwent growth arrest at the permissive temperature for wild-type p53. p53-dependent growth arrest, however, could be relieved by E1A expression. Thus, H-ras alone was insufficient and cooperation of H-ras and E1A was required to override growth suppression by p53. Our data further suggest that two complementary growth signals from E1A plus H-ras can rescue cell death and thus permit transformation.
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PMID:Activated H-ras rescues E1A-induced apoptosis and cooperates with E1A to overcome p53-dependent growth arrest. 762 44

Loss of function of the tumor-suppressor protein p53 is, in general, either caused by mutation, inducing a conformational change, or by binding to inactivating cellular (e.g. MDM2) or viral (e.g. SV40 large T) proteins. In adenovirus type 12 (Ad12)-transformed cells, p53 is stabilized without detectable binding to the Ad12 E1B/54 kDa protein and still present in a wild-type conformation but contains a mutant-like activity in cellular transformation. In this study we examined whether the changed characteristics of p53 in Ad12-transformed cells are correlated with changes in phosphorylation or complex formation of the protein. By making tryptic phosphopeptide maps we found a significant increase in the phosphorylation of the N-terminus of p53. Furthermore, expression of E1A was found to be essential for the altered phosphorylation, while expression of only Ad12 E1B/54 kDa is sufficient to increase the protein half-life. Additionally, we observed p53 to be present in increased molecular weight complexes in Ad12-transformed cells. We conclude that both the phosphorylation and oligomerization of p53 is changed as a result of Ad12 transformation.
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PMID:Altered phosphorylation and oligomerization of p53 in adenovirus type 12-transformed cells. 762 31

E1A of human adenovirus type 5 (Ad5) encodes proteins of 289 and 243 residues (289R and 243R) which differ only by the 46 amino acid CR3 region known to activate expression of certain cellular and early viral genes. E1A proteins also induce DNA synthesis and cell transformation, but as well can stimulate apoptosis. Two adenovirus E1B products act to protect cells from E1A-induced cell death, including a 19 kDa protein which is functionally similar to the cellular Bcl-2 suppressor of apoptosis, and a 55 kDa species which binds to and inhibits p53. Previous studies suggested that E1A-induced cell death occurs via a p53-dependent mechanism requiring regions of E1A proteins linked to induction of DNA synthesis and cell transformation. We report here that the 289R E1A protein induces apoptosis in cell lines lacking p53, whereas the 243R product was dependent upon p53. We also show that this p53-independent process involves the expression of one or more additional viral proteins which are presumably synthesized in response to transactivation by 289R. Thus E1A proteins induce cell death by both p53-dependent and p53-independent mechanisms involving separate E1A functions.
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PMID:Adenovirus E1A proteins induce apoptosis by both p53-dependent and p53-independent mechanisms. 763 Jun 30

The p53 gene, located on chromosome 17p 13.1 and coding for a nuclear 393 amino-acids phosphoprotein acts to constrain or antagonize cell growth, and as such, is a tumor suppressor gene. In fact, inactivation of p53 tumor suppressor gene is a common event in the development of all or most types of human cancers. About half of cell cancer cases analysed thus far involve missense mutation of one p53 allele combined with the deletion of the second allele, and many of the remaining cases involve a functional inactivation of p53 protein through non mutational mechanisms. The importance of p53 as an inherited cancer susceptibility gene has been demonstrated in Li-Fraumeni syndrome. In some circumstances, it has been shown that in response to DNA damage, the p53 level in the cell increases considerably and induces a cell growth arrest late in G1 phase. This cycle arrest allows the altered DNA to be repaired before entry of the cell into S phase. This function of p53 helps to insure the genomic stability of the cell. Mutations in p53 eliminate this response and result in enhanced frequency of genomic rearrangements. In other circumstances wild type p53 may act by triggering cell death by apoptosis. The p53 protein exerts its physiological functions through various biochemical activities. These include its ability to be a site-specific transcriptional transactivator as well as a repressor of transcription. The oncoproteins derived from several oncogenic DNA viruses including SV40 large T antigen, the adenovirus E1B protein, and papillomavirus E6 protein, as well as specific cellular gene products e.g. mdm2 form complexes with the p53 protein, causing its inactivation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[P53 and cancers]. 767 43

Adenovirus E1B 19K protein prevents premature death of adenovirus-infected cells. Viral mutants (19K mutants) defective in the 19K protein induce enhanced cell death, resulting in fragmentation of viral and cellular DNA. The 19K protein can also suppress the effects of certain external cell death-inducing stimuli, such as tumor necrosis factor alpha and various DNA-damaging agents that induce apoptosis. We have examined viral infection of permissive human cells and nonpermissive rat cells to determine if the 19K mutant induces apoptotic or necrotic type of cell death. Infection of normal rat kidney cells with an adenovirus type 2 19K deletion mutant induces internucleosomal DNA fragmentation and condensation of nuclear chromatin. Electron microscopic examination of these cells revealed the presence of condensed subnuclear bodies characteristic of apoptosis. In contrast, infection of human A549 cells induces random DNA fragmentation, and these cells do not exhibit characteristic condensation of the nuclear chromatin but contain enlarged nuclei loaded with virus particles. Therefore, it appears that adenovirus infection induces both apoptotic and necrotic types of cell death, depending on the cell type. Both types of cell death can be suppressed by E1B 19K protein. Similarly, a recombinant adenovirus expressing the human Bcl-2 protein but lacking the E1B proteins can efficiently suppress both apoptotic and necrotic cell death induced by adenovirus infection. The requirement of p53 tumor suppressor protein in adenovirus-induced cell death was investigated by infection of human Saos2 and mouse p53 nullizygous (p53-/-) cells lacking p53 tumor suppressor protein.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:p53-independent apoptotic and necrotic cell deaths induced by adenovirus infection: suppression by E1B 19K and Bcl-2 proteins. 775 71

Expression of the cyclin D1 gene is induced when quiescent fibroblasts are stimulated to reenter the cell cycle by addition of growth factors. Moderate ectopic expression of cyclin D1 in early G1 facilitates progression through G1. When transiently overexpressed at the G1/S boundary, cyclin D1 prevents S phase entry, suggesting a dual role for this protein in cellular growth control. It was shown that the retinoblastoma protein (pRB) can activate cyclin D1 gene expression; furthermore, there is evidence that expression of the cyclin D1 gene is down-regulated by the SV40 large T and adenovirus E1A genes, both of which were shown to target pRB. We now report that in diploid human fibroblasts functional inactivation of pRB by adenovirus E1A is not sufficient for efficient repression of cyclin D1 gene expression, since the E1B gene product, in addition to E1A, is required for repression of the cyclin D1 gene. Since E1B was shown to target p53, we investigated the role of p53 for expression of the cyclin D1 gene. In a cell line with temperature-sensitive p53, cyclin D1 is moderately expressed at the restrictive temperature. Induction of p53 function by temperature shift leads to an increase of cyclin D1 mRNA and protein, parallel to the activation of p21WAF-1/CIP1 gene expression in this system. When the capability of adenovirus gene products to affect expression of either gene was analysed, we found that infection of Ad5 drastically reduced cyclin D1 and p21WAF-1/CIP1 gene expression in cells where p53 function is limiting. Under these conditions E1A and E1B cooperate to reduce the cyclin D1 level, while p21WAF-1/CIP1 expression was found insensitive to E1A expression. In cells containing elevated p53 function, modulation of gene expression by E1B was severely compromised; under these conditions, expression of E1A reduced expression of cyclin D1 without affecting p21WAF-1/CIP1. The data suggest that E1A and E1B cooperate to inhibit expression of cyclin D1 and identify the cyclin D1 gene as a new downstream target for p53.
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PMID:The role of p53 in coordinated regulation of cyclin D1 and p21 gene expression by the adenovirus E1A and E1B oncogenes. 778 93

A temperature-sensitive (ts) mutant of the BHK21 cell line derived from golden hamsters, tsBN462 has a mutation in the gene encoding the largest subunit of the TFIID complex, TAFII250/p230/CCG1, and arrests in the G1 phase at the nonpermissive temperature, 39.5 degrees C. We found that tsBN462 cells underwent apoptosis following growth arrest at 39.5 degrees C, suggesting a role for CCG1 as a repressor of apoptosis. By electron microscopic observation, tsBN462 cells at 39.5 degrees C showed characteristic features of apoptosis. Apoptosis was not suppressed by expression of Bc1-2 or the adenovirus E1B 19 kDa protein. Cell death was suppressed completely by expression of wild-type CCG1 and partially by wild-type p53, a growth suppressor protein. Cell cycle arrest induced by p53 may help survival of tsBN462 cells at 39.5 degrees C. Apoptosis was accelerated in SV40 large T antigen-transformed tsBN462 cells at 39.5 degrees C where SV40 large T antigen formed a complex with p53, implying that the apoptosis of tsBN462 cells at 39.5 degrees C occurred in a p53-independent manner. Our results suggest that CCG1/TAFII250 is required for the expression of factors regulating apoptosis.
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PMID:Apoptosis is induced in BHK cells by the tsBN462/13 mutation in the CCG1/TAFII250 subunit of the TFIID basal transcription factor. 779 84

The adenovirus type 5 (Ad5) 55-kDa E1B oncoprotein has been shown to form complexes with the p53 tumor suppressor protein. These complexes are thought to interfere with normal p53 activity and may be responsible for the paucity of p53 mutations in cells transformed by these viruses. This report describes an example of a p53 mutation in exon 5 in an Ad5-transformed cell line that exhibited less expression of E1B 55-kDa protein and a longer tumor-latency phenotype than another Ad5-transformed cell line expressing wild-type p53. The finding of a p53 mutation in an Ad5-transformed cell line is unusual, especially considering the current theory that p53-E1B interactions play an important role in adenovirus transformation. This mutation could represent an alternative method of inactivating p53 function in the absence of sufficient levels of E1B 55-kDa oncoprotein.
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PMID:A p53 mutation in exon 5 associated with adenovirus transformation. 781 60

BRK cell lines that stably express adenovirus E1A and a murine temperature-sensitive p53 undergo apoptosis when p53 assumes the wild-type conformation. Expression of the E1B 19,000-molecular-weight (19K) protein rescues cells from this p53-mediated apoptosis and diverts cells to a growth-arrested state. As p53 likely functions as a tumor suppressor by regulating transcription, the ability of the E1B 19K protein to regulate p53-mediated transactivation and transcriptional repression was investigated. In promoter-reporter assays the E1B 19K did not block p53-mediated transactivation but did alleviate p53-mediated transcriptional repression. E1B 19K expression permitted efficient transcriptional activation of the p21/WAF-1/cip-1 mRNA by p53, consistent with maintenance of the growth arrest function of p53. The E1B 19K protein is thereby unique among DNA virus-transforming proteins that target p53 for inactivation in that it selectively modulates the transcriptional properties of p53. The E1B 19K protein also rescued cells from apoptosis induced by inhibitors of transcription and protein synthesis. This suggests that cell death may result from the inhibition of expression of survival factors which function to maintain cell viability. p53 may induce apoptosis through generalized transcriptional repression. In turn, the E1B 19K protein may prevent p53-mediated apoptosis by alleviating p53-mediated transcriptional repression.
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PMID:Modulation of p53-mediated transcriptional repression and apoptosis by the adenovirus E1B 19K protein. 782 21

The human KB derivative cell line MA1, established by introduction of the adenovirus E1A 12S cDNA linked to the hormone-inducible promoter, elicits apoptosis upon treatment with dexamethasone. The cell lines partially refractory to apoptosis were established by introducing the expression plasmid for the adenovirus E1B 19k protein to MA1 cells. After induction of E1A in MA1 cells by dexamethasone, the level of p53 increased to about 10-fold within 24 h, and morphological changes characteristics of apoptosis began to be observed within 48 h. Most of cells were killed at 72 h releasing apoptotic bodies. The level of topoisomerase II alpha began to decrease steeply within 36 h, preceding the onset of DNA degradation while its mRNA level unchanged throughout the apoptotic process. E1B 19k protected the decrease in topoisomerase II alpha as well as DNA fragmentation depending on its expression levels. Topoisomerase II alpha is induced specifically at G2/M, and computer search revealed the presence of cyclin B type destruction box in topoisomerase II alpha. These results strongly suggest that E1A or E1A stabilized p53 induces apoptosis by targeting topoisomerase II alpha to the ubiquitination pathway and E1B 19k alleviates its action.
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PMID:Adenovirus E1A-induced apoptosis elicits a steep decrease in the topoisomerase II alpha level during the latent phase. 786 42

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