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 EBNA-LP protein (also known as EBNA-5) of Epstein-Barr virus (EBV) has been reported previously to colocalize in the nuclei of cells with the pRb protein and to bind in vitro to pRb and to the p53 protein, suggesting a role for EBNA-LP in modulation of the function of these proteins. Here we test in transfection assays whether EBNA-LP expression has any functional consequence for repression of E2F-1 activity by pRb or p107 or for activation of transcription by the p53 protein. No significant effect could be found, although the assay systems were sensitive to the established effects of simian virus 40 large T antigen and human papillo-mavirus type 16 E6 protein. There was very effective repression of GAL4/E2F-1 transactivation by p107, consistent with earlier reports and indicating that p107 can interact with the E2F-1 transactivation domain, even though p107 has been reported to bind specifically to E2F complexes containing E2F-4. The results indicate that, if the associations of EBNA-LP with pRB and p53 are physiologically relevant, they most likely affect other functions of these proteins or modulate their gene regulatory functions in ways that cannot be detected by transfection into cycling transformed cells.
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PMID:Epstein-Barr virus EBNA-LP and transcription regulation properties of pRB, p107 and p53 in transfection assays. 756 51

The product of the retinoblastoma tumor-suppressor gene (RB) is a ubiquitously expressed, 105-kDa nuclear phosphoprotein (pRB). The pRB protein negatively regulates the cellular G1/S phase transition, and it is at this point in the cell cycle that it is thought to play its role as a tumor suppressor. The growth-inhibitory effects of pRB are exerted, at least in part, through the E2F family of transcription factors. This chapter reviews the insights into the mechanism of action of the E2F family members that have been obtained through overexpression studies. Studies in RB-/- SAOS-2 cells have provided evidence in support of the hypothesis that the E2F family members are negatively regulated by pRB and the related protein p130. In particular, the results obtained are consistent with the earlier biochemical data which suggested that E2F1 is regulated primarily by pRB, and E2F4 by p130. Results relating to p107 are also discussed. Consistent with the proposed role of pRB and E2F1 as coregulators of entry into S phase, experiments have demonstrated that overexpression of E2F1 is sufficient to override the cell cycle arrests caused by serum deprivation of fibroblasts or transforming growth factor-beta (TGF-beta) treatment of mink lung epithelial cells. However, at least in the case of the serum deprivation induced arrest, the ultimate result of E2F1 overexpression is death by p53-dependent apoptosis. In light of this and other data, a model is discussed as to how functional inactivation of pRB and p53 might cooperate to promote tumorigenesis. A number of studies have demonstrated the oncogenic potential of E2F family members, at least under certain conditions. This is, again, in keeping with the notion that these proteins play a critical role in controlling proliferation.
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PMID:The cellular effects of E2F overexpression. 857 14

Treatment of mammalian cells by DNA-damaging agents leads to various cellular responses. At sufficiently high dosage, cisplatin blocks cell proliferation and finally kills cells; this effect is the basis for its widespread use as an anticancer drug. Cisplatin-treated cells arrest in the G1 phase of the cell cycle, most likely due to a signal generated by the stabilization of p53 and the subsequent induction of p21WAF-1/Cip1. We show here that cisplatin-treated mammalian cells accumulate normal levels of cyclin D1 and cyclin E but fail to produce cyclin A. The block to cyclin A gene expression occurs at the level of transcription and is mediated by an E2F binding site in the cyclin A promoter. It is shown here that, upon cisplatin treatment, transcriptionally active free E2F becomes limiting, coincident with the accumulation of hypophosphorylated species of the retinoblastoma protein family. Immunoprecipitation experiments suggest that the loss of free E2F results, at least in part, from the sequestration of E2F-4/DP-1 heterodimers by p107. A role for the kinase inhibitor p21WAF-1/Cip1 in repression of the cyclin A promoter is supported by our finding that ectopic expression of p21WAF-1/Cip1 is sufficient to inhibit transcription from the cyclin A gene, dependent on the E2F site. The data establish the E2F site in the human cyclin A promoter as a key target for the signaling pathway leading to G1 arrest in response to DNA damage by cisplatin and potentially other genotoxic agents.
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PMID:Down-regulation of cyclin A gene expression upon genotoxic stress correlates with reduced binding of free E2F to the promoter. 918 3

Turcot syndrome is characterized by an association of malignant brain tumors and colon cancer developing in the patient's teens. Since the mechanism of carcinogenesis in Turcot syndrome is still unclear, we analysed genetic changes in tumors from a Turcot patient with no family history of the condition. All tumors, including one astrocytoma, three colon carcinomas, and two colon adenomas, exhibited severe replication error (RER), and all colon tumors showed somatic mutations at repeated regions of TGFbetaRII, E2F-4, hMSH3, and/or hMSH6 genes. Somatic APC mutations were detected in three of three colon carcinomas, and somatic p53 mutations were detected in the astrocytoma and two of three colon carcinomas, both of which showed two mutations without allele loss. We also found that normal colon mucosa, normal skin fibroblasts and normal brain tissue from this patient showed respective high frequencies of RER, in contrast to usual HNPCC patients in which RER was very rare in normal tissues. These results suggest that extreme DNA instability in normal tissues causes the early development of multiple cancer in Turcot syndrome. A missense mutation (GAG to AAG) at codon 705 of hPMS2 gene was detected in one allele of this patient, which was inherited from his mother without tumors. Additional unknown germline mutation may contribute to the genetic instability in normal tissues.
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PMID:Drastic genetic instability of tumors and normal tissues in Turcot syndrome. 941 79

p202 is an interferon (IFN)-inducible, primarily nuclear, phosphoprotein (52-kDa) whose overexpression in transfected cells inhibits colony formation. p202 binds to the retinoblastoma tumor suppressor protein and two other members of the pocket family proteins (p107 and p130). Moreover, overexpression of p202 in transfected cells inhibits the transcriptional activity of E2Fs (E2F-1/DP-1 and E2F-4/DP-1), p53, AP-1 c-Fos and c-Jun, NF-kappaB p50 and p65. Here we demonstrate that inhibition of endogenous p202 production in murine AKR-2B fibroblasts did not result in an increase in cell proliferation. Instead, these cells exhibited increased susceptibility to apoptosis in response to decrease in serum concentrations in the growth medium. These observations are consistent with the notion that normal levels of p202 may be needed for the regulation of cell proliferation.
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PMID:p202 prevents apoptosis in murine AKR-2B fibroblasts. 964 35

Ultraviolet light (UV) induced DNA lesions efficiently block transcript elongation and induce the p53 response. Although p53 contributes to transcriptional activation of the p21waf1 and bax genes, accumulation of these proteins requires that these genes are free of UV induced pyrimidine dimers. We assessed the level of expression of p53 and the p53 regulated p21waf1 and bax gene products in normal diploid fibroblasts (NDF) and several nucleotide excision repair deficient fibroblasts following UV-irradiation. At low UV fluences, increased expression of p53, p21waf1 and bax was only observed in fibroblasts deficient in transcription coupled repair (TCR). Whereas p53 protein levels increased in all cell types at high UV fluences, p21waf1 levels initially decreased and then recovered in a manner dependent on TCR. At later times, expression of p21waf1 and bax was only elevated in TCR-proficient cells. The lack of TCR strongly correlated with an enhanced induction of apoptosis. Furthermore, we assessed the effect of modulation of the p53/p21waf1/pRb pathway on clonogenic survival following UV irradiation. Expression of E2F-1, E2F-4, and the large tumour antigens of SV40 and Polyomavirus conferred UV sensitivity to NDF whereas p21waf1 protected cells against UV treatment. We propose that the fluence dependent attenuation of protective functions of p53 by blockage of transcription favours apoptosis following UV exposure.
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PMID:Persistent DNA damage induced by ultraviolet light inhibits p21waf1 and bax expression: implications for DNA repair, UV sensitivity and the induction of apoptosis. 970 20

A subset of hereditary and sporadic colorectal carcinomas is defined by microsatellite instability (MSI), but the spectra of gene mutations have not been characterized extensively. Thirty-nine hereditary nonpolyposis colorectal cancer syndrome carcinomas (HNPCCa) and 57 sporadic right-sided colonic carcinomas (SRSCCa) were evaluated. Of HNPCCa, 95% (37/39) were MSI-positive as contrasted with 31% (18/57) of SRSCCa (P < 0.000001), but instability tended to be more widespread in SRSCCa (P = 0.08). Absence of nuclear hMSH2 mismatch repair gene product by immunohistochemistry was associated with germline hMSH2 mutation (P = 0.0007). The prevalence of K-ras proto-oncogene mutations was similar in HNPCCa and SRSCCa (30% (11/37) and 30% (16/54)), but no HNPCCa from patients with germline hMSH2 mutation had codon 13 mutation (P = 0.02), and two other HNPCCa had multiple K-ras mutations attributable to subclones. 18q allelic deletion and p53 gene product overexpression were inversely related to MSI (P = 0.0004 and P = 0.0001, respectively). Frameshift mutation of the transforming growth factor beta type II receptor gene was frequent in all MSI-positive cancers (85%, 46/54), but mutation of the E2F-4 transcription factor gene was more common in HNPCCa of patients with germline hMSH2 mutation than in those with germline bMLH1 mutation (100% (8/8) versus 40% (2/5), P = 0.04), and mutation of the Bax proapoptotic gene was more frequent in HNPCCa than in MSI-positive SRSCCa (55% (17/31) versus 13% (2/15), P = 0.01). The most common combination of mutations occurred in only 23% (8/35) of evaluable MSI-positive cancers. Our findings suggest that the accumulation of specific genetic alterations in MSI-positive colorectal cancers is markedly heterogeneous, because the occurrence of some mutations (eg, ras, E2F-4, and Bax genes), but not others (eg, transforming growth factor beta type II receptor gene), depends on the underlying basis of the mismatch repair deficiency. This genetic heterogeneity may contribute to the heterogeneous clinical and pathological features of MSI-positive cancers.
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PMID:Accumulated clonal genetic alterations in familial and sporadic colorectal carcinomas with widespread instability in microsatellite sequences. 977 38

Frequent frameshift mutations of simple nucleotide repeats in the protein-encoding regions, as well as replication errors (RERs) at microsatellite loci, have recently been demonstrated in gastrointestinal tumors. These genetic instabilities have been considered indicative of an increased risk of accumulating mutations in cancer-associated genes and of developing multiple cancers. We studied frameshift (or insertion/deletion) mutations of simple nucleotide repeats in five genes (TGFbeta type II receptor [TGFbetaRII], E2F4, MSH2, MSH3, and MSH6) in 23 tumors from 12 patients who had synchronous cancers of the esophagus and other organs. Genetic instability at four microsatellite loci, as well as mutations in the TP53, APC, and KRAS2 genes, were also studied. No frameshift mutations were observed in the TGFbetaRII, MSH3, and MSH6 genes. RER and a deletion mutation of BAT26 in MSH2 were present in one (1/23; 4%) gastric cancer. This tumor also carried a deletion mutation in the serine (AGC) repeat of the E2F4 gene. Mutation screening of the TP53, APC, and KRAS2 genes revealed that the synchronous cancers did not carry the same mutations. Our results suggested that genetic instability, such as insertion/deletion mutations in simple nucleotide repeats, is not significantly associated with the development of multiple primary cancers of the esophagus and other organs, and that these synchronous cancers developed independently according to their different environmental factors.
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PMID:Infrequent frameshift mutations of polynucleotide repeats in multiple primary cancers affecting the esophagus and other organs. 982 4

The Epstein-Barr Virus (EBV) immediate-early protein BRLF1 is one of two transactivators which mediate the switch from latent to lytic replication in EBV-infected cells. DNA viruses often modulate the function of critical cell cycle proteins to maximize the efficiency of virus replication. Here we have examined the effect of BRLF1 on cell cycle progression. A replication-deficient adenovirus expressing BRLF1 (AdBRLF1) was used to infect normal human fibroblasts and various epithelial cell lines. BRLF1 expression induced S phase entry in contact-inhibited fibroblasts and in the human osteosarcoma cell line U-2 OS. AdBRLF1 infection produced a dramatic increase in the level of E2F1 but not E2F4. In contrast, the levels of Rb, p107, and p130 were decreased in AdBRLF1-infected cells. Electrophoretic mobility shift assays confirmed an increased level of free E2F1 in the AdBRLF1-infected human fibroblasts. Consistent with the previously described effect of E2F1, AdBRLF1-infected fibroblasts had increased levels of p53 and p21 and died by apoptosis. BRLF1-induced activation of E2F1 may be required for efficient EBV lytic replication, since at least one critical viral replication gene (the viral DNA polymerase) is activated by E2F (C. Liu, N. D. Sista, and J. S. Pagano, J. Virol. 70:2545-2555, 1996).
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PMID:The Epstein-Barr virus protein BRLF1 activates S phase entry through E2F1 induction. 1040 Jul 50

The cell cycle is under the control of various positive and negative regulators. Two such regulators are the E2F family of transcription factors and the p53 tumor suppressor protein. While E2F proteins are implicated in promoting the S phase of the cell cycle, p53 has the potential to arrest cells in G1 phase and thereby prevent entry into S phase. Because they perform seemingly opposite functions in the control of cell growth, a possibility of functional interactions between E2F and p53 was investigated. It was found that p53 specifically inhibited activated transcription by E2F-5 but not by E2F-1. Investigation into the mechanism of action established that heterodimer formation and the DNA-binding steps were not significantly inhibited by p53. However, the transcriptional activation step of E2F-5 activity, as examined by using a Gal4 DNA-binding domain chimera, was specifically inhibited by p53. Interestingly, p53 could also inhibit transcriptional activation by E2F-4 but not by E2F-2 or E2F-3. The results indicate that p53 differentially regulates the activities of two subclasses (E2F-1/-2/-3 vs. E2F-4/-5) of E2F transcription factors. Detailed analysis using a two-hybrid approach in mammalian cells indicated lack of physical interaction between p53 and E2F-5, DP-1, or E2F-1. Reciprocal analysis revealed that whereas E2F-1 dramatically inhibited p53-activated transcription, E2F-5 or DP-1 did not. Thus, nonreciprocal functional interactions exist between various members of the E2F family of transcription factors and p53 tumor suppressor protein. The complex interplay between various positive and negative regulators of cell growth, such as E2F and p53 proteins, may be crucial in determining the ultimate outcome in terms of cell cycle arrest, cell growth, or apoptosis.
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PMID:Differential regulation of E2F transcription factors by p53 tumor suppressor protein. 1061 3

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