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)

The expression of p53 in human cells infected with wild-type (wt) and mutant adenoviruses has been examined. With wt Ad5 and Ad12, and Ad12 viruses carrying lesions in the E1A or the 19K E1B genes, there was a pronounced decrease in level of p53 during the course of infection. However, when cells were infected with mutant viruses which did not express the larger E1B proteins (Ad12 dl620 and in602 and Ad5 dl338 and pm381) the concentration of p53 increased markedly to levels comparable to those seen in adenovirus transformed cells. This increase in level of p53 correlated closely with the advent of E1A expression. Infection with Ad5 dl355 (which carries a lesion in the E4 gene) also resulted in an increase in p53 expression. We have concluded that these results can be explained on the basis of the known ability of E1A to stabilize p53 and of the E1B 58K:E4 34K protein complex to regulate mRNA metabolism during viral infection, although large increases in expression of p53 or any other cellular proteins following infection with these viruses have not previously been reported. It is suggested that the high concentrations of p53 could explain the inability of 54K and 58K negative mutants to transform cells in culture. In cells infected with dl355 both the Ad5 E1B 58K protein and p53 were located in the nucleus. It was shown by coimmunoprecipitation experiments that these proteins formed a complex which was stable in the presence of high concentrations of NaCl. The interaction of the Ad12 E1B 54K protein and p53 has also been demonstrated in Ad12 E1-transformed cells by immunoprecipitation experiments. These data, taken in conjunction with previous results, have suggested that increased expression of p53 is unrelated to complex formation with the larger Ad E1B proteins.
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PMID:Enhanced expression of p53 in human cells infected with mutant adenoviruses. 805 47

To examine the significance of mutation of the p53 tumour suppressor gene in the development of human hepatocellular carcinoma in a high-prevalence area for hepatitis B viral infection but a low-exposure area for aflatoxin B1, the spectrum of p53 gene mutations was examined in 21 tumour samples from Hong Kong Chinese patients, all of whom were HBsAg positive. DNA sequencing covering exons 5 to 9 of the p53 gene and Hae III restriction enzyme digestion for preliminary assessment of mutation at codon 249 were performed. Immunohistochemical staining with anti-p53 monoclonal antibodies was done on both tumour and nontumour liver tissues. Six tumours (28.6%) showed a p53 mutation and all were point mutations. Of the six point mutations, two (9.5%) were at codon 249 and both were G to T transversions (AGG-->ATG and AGG-->AGT transversions). The remaining point mutations were transversions scattered at codon 172 (exon 5), 214 (exon 6), 273 (exon 8) and 330 (exon 9). Mutated p53 protein was detected in five of these six cases with demonstrable point mutations by DNA sequencing, in contrast to none detected in all of the 15 cases without demonstrable point mutations. The presence of p53 mutations, including those at codon 249, did not show a significant association with tumour size, sex, age, tumour invasiveness in terms of liver invasion, microsatellites and venous permeation, cirrhosis and encapsulation, but tumours with low cellular differentiation tended to have a higher incidence (71%) of point mutations than those with high cellular differentiation (8%). In conclusion, both the overall p53 mutation rate and that a codon 249 in HCC in Hong Kong Chinese are lower than those reported in tumours from China and sub-Saharan Africa. The low mutation rate at codon 249 is compatible with a low aflatoxin exposure. A special type of p53 mutation has not been found to be associated with hepatitis B viral infection. Mutations of p53 gene tends to occur in tumours with low cellular differentiation, suggesting a late occurrence in the event of tumour progression.
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PMID:p53 gene mutation spectrum in hepatocellular carcinomas in Hong Kong Chinese. 810 45

The p53 tumor suppressor protein, which is commonly mutated in human cancers, has been shown to interact directly with virally encoded from papillomavirus, adenovirus, and simian virus 40. The disruption of p53 function may be required for efficient replication of certain viruses and may also play a role in the development of virally induced malignancies. Infection with Epstein-Barr virus (EBV) has been associated with the development of B-cell lymphomas and nasopharyngeal carcinoma. Here we show that the EBV immediate-early protein, BZLF1 (Z), which is responsible for initiating the switch from latent to lytic infection, can interact directly in vitro and in vivo with the tumor suppressor protein, p53. This interaction requires the coiled-coil dimerization domain of the Z protein and the carboxy-terminal portion of p53. Overexpression of wild-type p53 inhibits the ability of Z to disrupt viral latency. Likewise, Z inhibits p53-dependent transactivation in lymphoid cells. The direct interaction between Z and p53 may play a role in regulating the switch from latent to lytic viral infection.
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PMID:Functional and physical interaction between p53 and BZLF1: implications for Epstein-Barr virus latency. 811 24

If the env gene of spleen focus-forming virus (SFFV) is replaced by a cDNA encoding a constitutively active form of the erythropoietin receptor, EPO-R(R129C), the resultant recombinant virus, SFFVcEPO-R, induces transient thrombocytosis and erythrocytosis in infected mice. Clonogenic progenitor cell assays of cells from the bone marrow and spleens of these infected mice suggest that EPO-R(R129C) can stimulate proliferation of committed megakaryocytic and erythroid progenitors as well as nonerythroid multipotent progenitors. From the spleens of SFFVcEPO-R-infected mice, eight multiphenotypic immortal cell lines were isolated and characterized. These included primitive erythroid, lymphoid, and monocytic cells. Some expressed proteins characteristic of more than one lineage. All cell lines resulting from SFFVcEPO-R infection contained a mutant form of the p53 gene. However, in contrast to infection by SFFV, activation of PU.1 gene expression, by retroviral integration, was not observed. One cell line had integrated a provirus upstream of the fli-1 gene, in a location typically seen in erythroleukemic cells generated by Friend murine leukemia virus infection. This event led to increased expression of fli-1 in this cell line. Thus, infection by SFFVcEPO-R can induce proliferation and lead to transformation of nonerythroid as well as very immature erythroid progenitor cells. The sites of proviral integration in clonal cell lines are distinct from those in SFFV-derived lines.
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PMID:A constitutively activated erythropoietin receptor stimulates proliferation and contributes to transformation of multipotent, committed nonerythroid and erythroid progenitor cells. 813 32

The wide clinicopathologic heterogeneity of non-Hodgkin's lymphoma is reflected by the various molecular pathways underlying non-Hodgkin's lymphoma pathogenesis, including activation of dominantly acting oncogenes, deletion and inactivation of tumor-suppressor genes, viral infection, deregulation of cytokine networks, and chronic antigenic stimulation. Molecular lesions involving protooncogenes include activation of bcl-2 and bcl-1 in specific subsets of low-grade non-Hodgkin's lymphomas and c-myc in a proportion of intermediate- and high-grade non-Hodgkin's lymphomas. The deregulation of these genes promotes cell growth or protects the tumor population from programmed cell death, or both. Additional genetic abnormalities representing putative sites of novel oncogenes contributing to lymphomagenesis include chromosomal breaks at 3q27 in intermediate-grade non-Hodgkin's lymphoma and at 9p13 in small lymphocytic lymphoma. The role of inactivation of tumor-suppressor loci is best exemplified by the frequent inactivation of p53 in Burkitt's lymphoma and by the recurrent deletion of 6q25-q27 and 6q21-q23 in intermediate- and high-grade non-Hodgkin's lymphoma, respectively. Infection by Epstein-Barr virus occurs in a variable fraction of high-grade non-Hodgkin's lymphomas, whereas it is usually absent in other types of non-Hodgkin's lymphoma. Other mechanisms supporting non-Hodgkin's lymphoma growth and development include autocrine or paracrine cytokine loops, or both, and clonal expansion through antigen receptor stimulation. The heterogeneity of non-Hodgkin's lymphoma pathogenesis provides a framework for the development of novel classification methods of potential clinical relevance.
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PMID:Biologic and molecular characterization of non-Hodgkin's lymphoma. 821 89

It has been proposed that wild-type p53 cell-regulating functions are annulled in human cervical carcinomas, either by mutations in the human papillomavirus (HPV)-negative cases or as a consequence of their complexing with HPV E6. The aim of this study was to test this hypothesis on 39 fresh cervical biopsies by p53 immunocytochemistry (ICC) with antibody PAb 240 and with NISH (non-isotopic in situ hybridization) and PCR (polymerase chain reaction) for HPV detection. p53 protein was present in the basal layer of pure wart virus infection; the basal to middle third of CIN (cervical intraepithelial neoplasia); in 19/22 (86 per cent) HPV-positive cervical carcinomas, ten of which contained integrated HPV; and in 4/8 (50 per cent) HPV-negative cervical carcinomas. Dual detection of p53 antigen and HPV 16 DNA in the same sections demonstrated either p53 protein or integrated HPV 16 alone in the majority of cells. Co-localization of both signals was only evident in isolated cells. These data suggest that PAb 240 immunoreactivity is not mutant-specific. They are, however, consistent with the conformation hypothesis which proposes that wild-type p53 changes from a suppressor (PAb 240-negative) to a promoter (PAb 240-positive) form during cell growth response. Hence, according to this hypothesis, p53 protein expression may represent either the wild-type promoter form or mutant p53 protein, both of which share the same conformation. This may explain co-localization of p53 and HPV in some tumours. However, the absence of p53 protein in 50 per cent HPV-negative squamous cell carcinomas suggests that not all HPV-negative tumours accumulate p53 protein.
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PMID:p53 antigen in cervical condylomata, intraepithelial neoplasia, and carcinoma: relationship to HPV infection and integration. 822 52

Hepatocellular carcinoma samples obtained from 59 patients at surgical resection were examined for mutations of the third base at codon 249 of the p53 gene, using the polymerase chain reaction and oligonucleotide hybridization techniques. This point mutation, which is frequently observed in HCC cases from Southern Africa and Quidong in China, was not recognized in either 60 hepatocellular carcinomas or 53 noncancerous liver tissue samples from Japan. Thirty-four of 45 patients (75.6%) were positive for the hepatitis C virus, which was a higher rate than that for hepatitis B virus infection (9 of 55; 16.4%). The exposure to aflatoxin B1 was not considered to be remarkable. These results suggest that the point mutation of the third base at codon 249 is not common in Japanese patients, and it is suggested that numerous other factors affect the mutation of the p53 gene and the development of hepatocellular carcinoma.
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PMID:The mutation of codon 249 in the p53 gene is not specific in Japanese hepatocellular carcinoma. 825 41

Programmed cell death (apoptosis) is a normal process by which cells are eliminated during normal embryonic development and in adult life. Disruption of this normal process resulting in illegitimate cell survival can cause developmental abnormalities and facilitate cancer development. Normal cells require certain viability factors and undergo programmed cell death when these factors are withdrawn. The viability factors are required throughout the differentiation process from immature to mature cells. Although many viability factors are also growth factors, viability and growth are separately regulated. Viability factors can have clinical value in decreasing the loss of normal cells including the loss that occurs after irradiation, exposure to other cytotoxic agents or virus infection including AIDS. There is no evidence that occurs after irradiation, exposure to other cytotoxic agents or virus infection including AIDS. There is no evidence that cancer cells are immortal. Programmed cell death can be induced in leukemic cells by removal of viability factors, by cytotoxic therapeutic agents, or by the tumor-suppressor gene wild-type p53. All these forms of induction of programmed cell death in leukemic cells can be suppressed by the same viability factors that suppress programmed cell death in normal cells. A tumor-promoting phorbol ester can also suppress this death program. The induction of programmed cell death can be enhanced by deregulated expression of the gene c-myc and suppressed by the gene bcl-2. Mutant p53 and bcl-2 suppress the enhancing effect on cell death of deregulated c-myc, and thus allow induction of cell proliferation and inhibition of differentiation which are other functions of deregulated c-myc. The suppression of cell death by mutant p53 and bcl-2 increases the probability of developing cancer. The suppression of programmed cell death in cancer cells by viability factors suggests that decreasing the level of these factors may increase the effectiveness of cytotoxic cancer therapy. Treatments that downregulate the expression or activity of mutant p53 and bcl-2 in cancer cells should also be useful for therapy.
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PMID:Control of programmed cell death in normal and leukemic cells: new implications for therapy. 832 19

The weight of accumulated evidence suggests a role for the p53 tumor suppressor gene in the development of human hepatocellular carcinoma (HCC). Most striking is an apparent mutational specificity at codon 249 of the human gene. Aflatoxin B1 (AFB) is a liver-specific carcinogen which causes G to T substitutions. This transversion was detected at codon 249 in about 50% of the analyzed HCC tumors from African and Asian patients. In these geographic regions aflatoxin exposure and hepatitis B viral infection are risk factors for HCC. In contrast to the human data, no mutations at codon 249 were detected in AFB-induced tumors from non-human primates. We have analyzed the p53 gene at the site corresponding to codon 249 of the human gene in AFB-induced preneoplastic hepatic nodules from rats. No mutations were detected in the tissues examined. Our data suggest that, at least in the rat, AFB exposure alone may not be sufficient for the specificity of p53 mutations observed in HCC.
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PMID:Aflatoxin B1-induced rat hepatic hyperplastic nodules do not exhibit a site-specific mutation within the p53 gene. 838 Jan 29

Hepatitis C virus infection is a common cause of chronic liver disease and hepatocellular carcinoma. Recently, mutations in the p53 tumor suppressor gene with generation of circulating autoantibodies to p53 protein have been detected in a significant proportion of patients with different malignancies. Using ELISA methods we assessed alpha-fetoprotein and anti-p53 as serological screening parameters for hepatocellular carcinoma in 147 consecutive patients with chronic hepatitis C. Liver cirrhosis was histologically diagnosed in 58 patients (39.5%) and a hepatocellular carcinoma confirmed in seven patients (4.8%). Serum alpha-fetoprotein was raised above 20 ng/ml in 26/147 patients and above 100 ng/ml in 5/147 patients. In 6/7 patients with hepatocellular carcinoma, alpha-fetoprotein was raised above 20 ng/ml, but only in 3/7 cases above 100 ng/ml, resulting in a sensitivity and specificity of 85.7% and 85.7% (alpha-fetoprotein > 20 ng/ml) and 42.9% and 98.6% (alpha-fetoprotein > 100 ng/ml) for the detection of hepatocellular carcinoma, respectively. Autoantibodies to p53 were detected in 3/7 patients with hepatocellular carcinoma, but in 0/140 patients without malignancy (sensitivity 42.9%, specificity 100%). Screening for hepatocellular carcinoma was improved by combining alpha-fetoprotein measurement (level > 100 ng/ml) with detection for anti-p53 (sensitivity 71.4%, specificity 98.6%). In conclusion, the presence of anti-p53 was highly specific for malignancy and independent of alpha-fetoprotein status. Further studies including a larger number of patients with hepatitis C virus-related hepatocellular carcinoma are required to investigate whether serological testing for anti-p53 in combination with alpha-fetoprotein might improve the detection of hepatocellular carcinoma in high-risk patients with liver cirrhosis.
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PMID:Alpha-fetoprotein and p53 autoantibodies in patients with chronic hepatitis C. 853 17


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