Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Overexpression of the nuclear phosphoprotein p53 is one of the most common abnormalities in primary human cancer and appears to be due to point mutation within a highly conserved region of the p53 gene which then encodes for a mutant, more stable protein. In this study different stages of breast cancer progression were examined, from in situ to metastatic disease, to determine at what stage mutational activation occurs and whether it is maintained during tumor progression. Two (13%) of 15 pure intraductal tumors expressed high levels of p53 in all malignant epithelial cells. Sequencing of p53 mRNA from one of these tumors demonstrated a nucleotide substitution altering the amino acid composition of the protein. Six (17%) of 35 specimens which contained both in situ and invasive disease expressed high levels of p53. All malignant epithelial cells in these 6 cases stained positively and in no specimen did one component express different levels of the protein than the other growth phase. Sequence analysis of a tissue with significant amounts of both in situ and invasive disease revealed only a single point mutation, without evidence of wild-type nucleotide at the site of substitution, suggesting that p53 mRNA from each component of the tumor contained the same nucleotide substitution. Eleven (50%) of 22 pairs of primary tumors and their lymph node metastases expressed elevated levels of p53, and in each case, expression levels were identical in the primary and secondary sites. Identical mutations were found in the p53 mRNA from two paired primary and metastatic sites. Therefore, mutation within a highly conserved region of the p53 gene leading to overexpression of the protein product can occur in the earliest recognized phase of breast cancer and this alteration is maintained during progression from intraductal to infiltrating carcinoma. Mutations are also conserved during the process of metastatic spread.
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PMID:Maintenance of p53 alterations throughout breast cancer progression. 185 Jun 60

The p53 gene has been elucidated as a tumor suppressor gene, and inactivation of this gene caused by deletion or point mutations may play a crucial role in the development of human malignancies. In colorectal carcinomas with an allelic deletion of the p53 gene, the remaining p53 gene was mutated with considerable frequency. It is most difficult to detect point mutations or small deletions of the gene because the mutations occur in diverse regions, although four hot spots have been observed [J.M. Nigro et al., Nature (Lond.), 342: 705-708, 1989]. The polymerase chain reaction and denaturing gradient gel electrophoresis facilitate detection of mutations in the hot spots of the p53 gene. Using these methods, we detected mutations in three adenomatous polyps and one carcinoma from familial polyposis coli patients and three carcinomas of sporadic cases. The DNA sequence analysis confirmed mutations of the p53 gene in 2 adenomas (13 base-pair deletions in one and a point mutation in the other) and 1 carcinoma (point mutation) from familial polyposis coli patients. These results suggest that the p53 gene mutations may be involved in the formation not only of carcinomas but also of adenomas which occur in familial polyposis coli patients.
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PMID:p53 gene mutations in colorectal tumors from patients with familial polyposis coli. 185 62

The p53 tumor suppressor gene is frequently mutated and the K-ras oncogene is occasionally mutated in primary specimens of human lung carcinomas. These mutated genes also cooperate in the immortalization and neoplastic transformation of rodent cells. To determine whether these mutations are necessary for maintenance of the immortalized and/or neoplastically transformed states of human bronchial epithelial cells, the p53 gene and regions of the ras (K-, H-, and N-) genes were sequenced in nine human lung carcinoma cell lines. Detection of p53 mutations by polymerase chain amplification and direct DNA sequencing was corroborated by p53 immunocytochemistry and coimmunoprecipitation of p53 with heat shock protein 70. p53 and ras genes were frequently, but not always, mutated in the carcinoma cell lines. These data are consistent with the hypothesis that multiple genetic changes involving both protooncogenes and tumor suppressor genes occur during lung carcinogenesis.
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PMID:p53 mutations, ras mutations, and p53-heat shock 70 protein complexes in human lung carcinoma cell lines. 185 24

The nuclear phosphoprotein p53 is expressed in all normal cells and appears to function in cell cycle regulation. Abnormally high levels of the protein are found in many different types of cancer. In breast carcinoma overexpression of p53 is associated with point mutations within highly conserved regions of the p53 gene. These altered genes encode stable p53 proteins that can be detected by standard immunohistochemical techniques unable to detect rapidly degraded wild-type protein. The level of p53 expression in 184 primary breast cancer specimens was assessed by immunohistochemical analysis and related to the following established prognostic factors for breast cancer: age, stage, metastatic involvement, concentration of estrogen and progesterone receptors, proliferative index, and HER-2/neu overexpression. Fifty (27%) of these primary breast cancer specimens had widespread overexpression of p53. Highly significant associations were found between p53 overexpression and late stage, metastatic spread, and low concentration of progesterone receptors. The presence of elevated levels of mutant p53 may itself be a prognostic factor in human breast cancer and activation of this oncogene may be important in the ability of a tumor to metastasize.
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PMID:Relation between p53 overexpression and established prognostic factors in breast cancer. 185 36

The p53 gene is a tumor suppressor gene located on chromosome 17p. Deletions of this chromosome and point mutations of p53 have been implicated in the development of colonic neoplasms. We have analyzed the loss of heterozygosity of the human p53 tumor suppressor gene in 40 cases of colorectal carcinoma using two restriction fragment length polymorphisms detected by BglII and AccII restriction enzymes. p53 gene product expression was studied immunohistochemically in 64 colorectal carcinomas, 18 adenomas, and 40 normal colonic mucosae using an anti-human p53 monoclonal antibody (Pab 1801) and the avidin-biotin-peroxidase complex technique. Twelve of the 40 patients (30%) were polymorphic for the p53 gene. In ten of these informative patients (83%), the tumor samples showed the loss of one allele when compared with normal colorectal samples of the same patient. One of the homozygous patients showed a loss of both p53 alleles. p53 immunostaining was observed in 43 of 64 carcinomas (67%) but only in two adenomas (11%). These two positive adenomas showed areas of carcinoma in situ. The normal mucosa was always negative. No relation could be found between p53 immunostaining and the degree of differentiation, the extension of the tumor, or the Ki-67 proliferative index. Mucinous carcinomas and right-side carcinomas were less p53 immunoreactive (25% and 52%, respectively) than the usual adenocarcinomas (73%) and distal tumors (72%). These findings suggest that p53 may be a target of chromosome 17 deletions and that this gene may play a role in the malignant transformation of adenomas. BglII and AccII restriction fragment length polymorphism analysis of the p53 gene may be a useful and direct technique to detect allelic loss of this gene in tumors.
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PMID:Loss of heterozygosity of p53 gene and p53 protein expression in human colorectal carcinomas. 186 64

Evidence supporting a broad role for the inactivation of the p53 gene in human tumorigenesis has been provided by studies showing that the p53 gene is mutated in many human cancers. In this study, we report on the mutational status of the p53 gene in prostate cancer cells and provide functional evidence that the wild-type p53 gene may have a role in suppressing prostatic tumorigenesis. Sequence analysis of exons 5-8 of the p53 gene reveals that three of five prostate cancer cell lines (TSUPr-1, PC3, DU145) contain mutations which alter the amino acid sequence of this most highly conserved portion of the gene. One of two primary prostatic cancer specimens examined also contained a mutation in this region. Transfection of the wild-type p53 gene versus a mutated p53 gene into two cell lines with p53 mutations results in reduced colony formation. Wild-type p53 gene expression is apparently incompatible with continued growth of these tumor cells inasmuch as none of the colonies which formed after wild-type transfections retain the transfected p53 sequences. Immunocytochemical data indicate that prostate carcinoma cells expressing the transfected wild-type p53 gene are growth arrested because they exhibit a reduced level of thymidine incorporation into DNA. This study is the first report of p53 gene mutations in prostate cancer cells and suggests a functional role for the p53 gene in suppressing prostatic tumorigenesis.
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PMID:Wild-type p53 suppresses growth of human prostate cancer cells containing mutant p53 alleles. 187 16

It has been reported [Matlashewski et al. (1986). Eur. J. Biochem., 154, 665-672] that HeLa cells contain no detectable p53 protein, although they contain p53 mRNA which is translationally active. Here it is shown that endogenous HeLa p53 proteins were easily detected in HeLa cells transiently expressing mouse deletion mutant p53 gene after transfection with the appropriate recombinant plasmid. This detection was obtained by immunoprecipitation coupled with SDS-PAGE as well as by Western blotting experiments. Our results strongly suggest that HeLa p53 mRNA is actually translated in vivo, generating an extremely unstable p53 protein. Considering that the HeLa cell line is a HPV-18-positive human cervical carcinoma cell line, this high instability of HeLa p53 proteins is in keeping with the finding that E6 oncoprotein encoded by human papillomavirus 16 or 18 promotes the degradation of p53 proteins [Scheffner et al. (1990). Cell, 63, 1129-1136].
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PMID:Endogenous HeLa p53 proteins are easily detected in HeLa cells transfected with mouse deletion mutant p53 gene. 188 12

Evidence is accumulating that the p53 anti-oncogene is a key gene in the genesis of carcinoma in human colon and rectum. Although mutations of the p53 gene have been shown to be frequent, the protein was present in only approximately 50 percent of specimens examined. However only one monoclonal antibody recognizing an epitope present on wild-type p53 had been used. We studied the p53 expression in a series of 16 colorectal carcinoma specimens using 3 different monoclonal antibodies (pAb 421, 1801, 240). Specific immunofluorescent staining was quantified by dual parameter (DNA/p53) flow cytometry. Two different types of preparations were compared in order to verify the conservation of the antigen. Nuclear suspensions prepared from frozen tumor fragments were shown to produce results equivalent to those of whole cell preparations originating from fresh surgical specimens. The p53 protein was detected in 9 of the 16 cancers with pAb 421 and 240 monoclonal antibodies (8 of which were also positive for pAb 1801 antibody). Four additional tumors were considered positive for pAb 240 antibody alone. Overall, 13/16 cancer specimens were shown to present immunoreactivity for pAb 240 antibody. Topography of staining was investigated by immunohistochemistry with peroxidase methods. Eight cases were informative, 6 of which presented nuclear staining compatible with the cytometry results. There was one discordant case i.e. pAb 240 antibody being positive on cytometry and entirely negative on immunohistochemistry. This small series allowed us to show that 81 percent of tumor samples stained with monoclonal antibody pAb 240, considered to be specific to mutated protein, and that some tumors express a p53 protein which is not detected with terminal sequence-specific antibodies.
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PMID:[Immunochemical evidence of a mutated p53 protein expressed in human colorectal adenocarcinoma]. 191 31

The p53 gene has been implicated as a tumour suppressor, with mutations occurring in many carcinomas, such as colon, breast and lung. We have sequenced exons 5, 7 and 8 containing conserved gene regions in the only available differentiated thyroid follicular carcinoma cell line and found a mutation at position 273, Arg----His, with no normal allele present. The same mutation was also present in DNA from the tumour of origin. However immunohistochemical analysis of 129 human thyroid tumours using a panel of p53 antibodies was unequivocally negative. Southern blotting in 20 cases failed to demonstrate any deletion or rearrangement, and direct genomic sequencing of 20 carcinomas showed normal DNA sequence for exons 5, 7 and 8. Thus p53 abnormalities may not be important in human thyroid carcinogenesis, in contrast to colon, breast and lung. However, the FTC 133 cell line was only established after 132 unsuccessful attempts with other differentiated thyroid follicular tumours. Since this line and the corresponding tumour of origin have a p53 mutation, we propose that p53 mutation may confer on thyroid follicular tumour cells the ability to grow in culture. This has potential applications for the future development of thyroid carcinoma cell lines.
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PMID:Mutation of the p53 gene in a differentiated human thyroid carcinoma cell line, but not in primary thyroid tumours. 192 34

The human TP53 gene is a possible tumor suppressor since TP53 gene mutations are observed in greater than 70% of sporadic colorectal carcinoma DNAs. In genomic DNAs from seven colon cancer cell samples, a 405 base pair DNA fragment containing exon 5, intron 5, and exon 6 of the TP53 gene was amplified by polymerase chain reaction and analyzed for mutations. One sample [human colon cancer (HCC) 278] was found to have a TP53 mutation altering the amino acid glutamine 167 in exon 5. A deletion of 2 bases changed glutamine 167 (CAG) to alanine (GCA) and the resulting frame-shift produced an in-frame stop codon at amino acid 179. While the normal TP53 gene gives rise to a 53 kD protein, the estimated size of this mutant TP53 protein if expressed would be approximately 20 kD.
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PMID:Mutation in the TP53 gene in colorectal carcinoma detected by polymerase chain reaction. 195 96


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