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)

We examined the status of the p53 mutation, a putative tumor suppressor gene, as well as the expressions of myc and mos oncogene products in human salivary gland pleomorphic adenoma cells in culture derived from four individuals using techniques which enabled selective and favourable growths of tumor cells. Culture techniques empolyed in this study consisted of type I collagen gel-coated dishes and serum-free medium as substrates and growth medium, respectively. Cells grown under above conditions were subjected to the analyses of p53, myc and mos expression. When analyzed by both immunocytochemical staining and immunoblot, mutant forms of p53 specifically detected by PAb240 were observed in three of 4 cases. However, none of the 4 cases expressed myc and mos oncogene products. These results may imply a role for p53 mutation in the development of human salivary gland pleomorphic adenomas.
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PMID:Involvement of p53 mutation in the development of human salivary gland pleomorphic adenomas. 132 86

Recognition of premalignant lesions in the oral epithelium has the potential to increase survival rates for squamous cell carcinoma of the oral cavity. It has previously been reported that cytokeratin 19 (CK19), a 40-kd epithelial cytoskeletal protein within the suprabasal squamous epithelium, is a specific marker of moderate-to-severe dysplasia and carcinoma in situ in oral cavity squamous epithelium. In contrast, normal epithelium and hyperplastic lesions reportedly express CK19 only in the basal layer if at all. The authors chose to test and extend this hypothesis by studying suprabasal CK19 expression and dysplasia of the oral cavity and upper aerodigestive tract in paraffin-embedded specimens that had been fixed in alcohol, a superior fixative for the preservation of cytokeratins. The authors examined 56 alcohol-fixed, paraffin-embedded specimens including 37 from the oral cavity, using two antibodies specific for CK19 (Ks19.1 and 4.62), an antibody to the nuclear proliferation marker, proliferating cell nuclear antigen (PCNA) (19A2), and an antibody to the putative tumor suppressor gene, p53 (pAb1801). The lesions were classified as normal, hyperplasia, mild dysplasia, moderate dysplasia, severe dysplasia/carcinoma in situ, or invasive squamous cell carcinoma, following standard histologic criteria. Immunocytochemically stained sections were scored for the presence or absence of suprabasal CK19, suprabasal PCNA, and p53 positivity, regardless of location. The immunostaining patterns of the two anti-CK19 antibodies were essentially equivalent. Except for one laryngeal specimen, normal epithelium, when positive, showed CK19 expression only in scattered cells throughout the basal layer. Proliferating cell nuclear antigen-positive nuclei were found exclusively in the basal layer. In areas of hyperplasia, CK19 immunostaining was absent or confined to the basal layer in 20 of 38 specimens and was expressed in suprabasal cells in 18 of 38 hyperplastic specimens. Proliferating cell nuclear antigen immunostaining in all cases of hyperplasia was limited to the basal layer. Severe dysplasia and carcinoma in situ showed suprabasal CK19 staining in six of nine specimens and no CK19 staining in three of nine specimens. In contrast, suprabasal PCNA immunostaining was found in all dysplasia and carcinoma in situ cases. p53 expression was detected in three of nine severe dysplasia/CIS specimens and was immunocytochemically undetectable in all normal, hyperplasia, and mild to moderate dysplasia specimens. The authors conclude that suprabasal CK19 expression is neither a sensitive nor a specific marker of premalignancy in oral epithelium and cannot be used to distinguish hyperplasia from dysplasia. In contrast, a strong correlation between suprabasal expression of PCNA, a marker for proliferating cells, and dysplasia/carcinoma in situ was evident.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Markers for dysplasia of the upper aerodigestive tract. Suprabasal expression of PCNA, p53, and CK19 in alcohol-fixed, embedded tissue. 138 38

The putative tumor suppressor gene p53 plays a key role in the regulation of cell proliferation. Functional loss of p53 protein through mutation or viral oncogene-complexing can result in p53 protein overexpression detectable by immunocytochemistry, which in turn has been associated with markers of poor prognosis in some cancers. We report here an analysis of p53 overexpression in fixed, embedded specimens from 81 prospectively collected head and neck tumors, both benign and malignant, including 55 squamous cell carcinomas, using monoclonal pAb1801. Sixty-two percent of the squamous cell carcinomas from the head and neck region overexpressed p53, whereas none of the benign tumors or adjacent normal tissues overexpressed p53. Overexpression of p53 was strongly associated (p < 0.01, two-tailed chi-square) with a histologic malignancy grading scale previously shown to have prognostic capabilities. We conclude that p53 overexpression is one of the most common abnormalities identified in head and neck cancer, and may be a useful marker in the study of multistep progression of tumorigenesis.
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PMID:Overexpression of p53 in head and neck cancer. 146 14

Tumorigenesis is a multistep process involving mutations of dominantly acting proto-oncogenes and mutations and loss-of-function mutations of tumor suppressor genes. Some of these mutations may be inherited, but most of them are acquired. Models for the sequential steps of the genetic changes involved in tumor development have been proposed for certain cancers, such as colon cancer. In the case of ovarian cancer, relatively little is known about the genetic events associated with the initiation or subsequent progression and metastases of the tumor. Cytogenetic analysis has revealed a high incidence of both structural and numerical chromosome changes, and the extent of these changes seems to increase with tumor progression. Oncogene activations of the proto-oncogenes K-ras, c-myc and c-erbB-2 have been found more frequently in aggressive ovarian tumors and may be associated with poor survival. Tumor-specific allele loss involving putative tumor suppressor genes has been observed for loci at chromosomes 11p, 17p, and 17q,--loci commonly deleted in other cancers too. A relatively high incidence of allelic loss on chromosome 6q appears to be specific to ovarian carcinoma. Familial breast/ovarian cancer has been suggested to map to chromosome 8q. Recently we have found a germ-line mutation in the tumor suppressor gene p53 in a family with breast- and ovarian cancers, indicating that this is the predisposing gene in this family. Genetic changes important for the etiology of ovarian cancers seem to involve both somatic mutations of oncogenes and somatic or germ-line inactivation of tumor suppressor genes.
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PMID:Oncogenesis in ovarian cancer. 150 89

A systematic study of primary human breast tumor DNA demonstrated that three proto-oncogenes or regions of the genome (c-myc, int-2, and c-erbB2) are frequently amplified and that there is loss of heterozygosity (LOH) on chromosomes 1p(37%), 1q(20%), 3p(30%), 7(41%), 11p(20%), 13q(30%), 17p(49%), 17q(29%), and 18q(34%). Specific subsets of tumors can be defined based on the particular collection of mutations they contain. For instance, LOH on chromosomes 11p, 17p, and 18q frequently occurs in the same tumor. A search for putative tumor suppressor genes within the regions of the genome affected by LOH has been started. In a comprehensive molecular analysis of the p53 gene on chromosome 17p, 46% of the tumors contained a point mutation in the p53 gene.
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PMID:Somatic mutations and human breast cancer. A status report. 154 Aug 99

Loss of heterozygosity (LOH) on the short arm of chromosome 17 (17p) was found in 27 of 52 (52%) previously untreated primary breast cancers. There was a significant correlation between this 17p allelic loss and two parameters associated with aggressive tumor behavior: high cellular proliferative fraction and DNA aneuploidy. These correlations with high cellular proliferative fraction and DNA aneuploidy were not found in tumors with LOH at nine other chromosome locations. The p53 gene, a putative tumor suppressor gene located at 17p13, was examined for aberrations to determine whether it is the target for the 17p LOH in breast cancer. Unlike other types of human cancer, there were no homozygous deletions or rearrangements of the p53 gene, and only 2 of 13 (15%) were mutated in the conserved region where mutational "hot spots" have been previously located. Therefore, we hypothesize that, in breast cancer, either loss or inactivation of gene(s) on chromosome 17p other than the p53 gene or a different mechanism of p53 gene inactivation may be responsible for the observed high labeling index and DNA aneuploidy associated with LOH at 17p.
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PMID:Loss of heterozygosity on the short arm of chromosome 17 is associated with high proliferative capacity and DNA aneuploidy in primary human breast cancer. 167 92

A putative tumor suppressor gene, p53, has been shown to be altered in a variety of human tumor types. The primary mechanism of p53 inactivation is believed to be mutation of one allele followed by loss of the second allele. Malignant mesothelioma is a tumor that has been highly associated with exposure to asbestos fibers, which are known to cause chromosomal abnormalities in mesothelial cells. We have examined four mesothelioma cell lines for genetic abnormalities in p53. Cytogenetic analysis revealed that two of the four tumors had abnormalities (numerical and/or structural) of chromosome 17 (the locus of the p53 gene). Restriction fragment length polymorphism analysis using a chromosome 17p-specific probe (pYNZ22) revealed that two tumors had loss of heterozygosity in the region of 17p13. The relative level of p53 mRNA expression was examined by Northern analysis, with one tumor showing negligible expression of p53 mRNA. The complementary DNA of p53 was generated from the three tumors showing detectable mRNA expression, and the region between codons 70 and 319 was amplified by the polymerase chain reaction and sequenced. DNA single-base substitutions were detected in two of the tumor cell lines, each resulting in amino acid substitutions. One tumor had an arginine to histidine substitution at position 175, and one tumor had a glycine to aspartic acid substitution at position 245. The observed mutations took place in regions of high cross-species sequence homology, indicating that these regions may be functionally important. The correlation of chromosomal loss in 17p on the cytogenetic and molecular level along with p53 mRNA expression and DNA sequence data indicate that genetic alterations in p53 could be a feature of malignant mesotheliomas and may reveal an important role of asbestos fibers in tumor suppressor gene inactivation.
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PMID:Genetic alterations of the p53 gene are a feature of malignant mesotheliomas. 191 60

Two prostate carcinoma cell lines, DU-145 and PC-3, were examined for abnormalities in the retinoblastoma (Rb) and the p53 putative tumor suppressor genes. We found an abnormal Rb gene product in DU-145 using Western blot analysis. Polymerase chain reaction amplification followed by direct DNA sequencing demonstrated a base substitution mutation that generates a stop codon in exon 21. On Northern, Southern, and Western blot analysis, the p53 gene and its product appear to be normal in DU-145. PC-3, however, failed to demonstrate expression of either the p53 transcript on Northern blot analysis or the p53 protein on Western blot analysis, while the Rb gene products appeared to be normal on both Northern and Western blot analysis. This work extends the correlation between abnormal expression of putative tumor suppressor genes and human malignancies.
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PMID:Two prostate carcinoma cell lines demonstrate abnormalities in tumor suppressor genes. 198 44

The human p53 gene, a putative tumor suppressor gene, has a polymorphism in amino acid residue 72. We recently developed a method of detecting codon 72 polymorphism in this gene by digestion of polymerase chain reaction-amplified DNA using an allele-specific restriction endonuclease. This polymorphism allows the identification of loss of heterozygosity for the coding region of the p53 gene in limited tissue samples in a short time without using radioactive materials. We examined 33 patients with renal cell carcinoma and 29 with bladder cancer; heterozygosity in the p53 gene was lost in 60% (6 of 10 cases) and 73% (8 of 11 cases) of the renal and bladder tumors, respectively. Additionally, the assay's sensitivity could be improved by using DNA extracted from frozen sections of the tumors. Because the proportions of tumor cells and nontumor cells could be assessed by microscopic evaluation of the frozen sections, we were able to minimize contamination from nontumor cells, which occasionally causes false readings of retained heterozygosity. This simple and sensitive method for detecting loss of heterozygosity in the p53 gene makes it possible to rapidly screen a large number of tissue samples and has the potential to be a useful diagnostic tool for a wide variety of human neoplasms.
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PMID:Detection of loss of heterozygosity in the p53 gene in renal cell carcinoma and bladder cancer using the polymerase chain reaction. 200 30

Remarkable advances in the understanding of specific inherited and acquired genetic events that are important in colonic carcinogenesis have occurred in the last several years. Studies of the population genetics of colon cancer have determined that the gene responsible for familial adenomatous polyposis (FAP), and Gardner's syndrome has been localized on the long arm of chromosome 5 and have more clearly defined the importance of genetic influences in 'sporadic' colon cancer. Studies of the molecular genetics of colon cancer have identified acquired alterations in oncogenes such as the K-ras gene and in putative tumor suppressor genes such as the FAP gene on chromosome 5, the p53 gene on chromosome 17, and the DCC gene on chromosome 18, which appear to mediate important steps in the adenoma-dysplasia-carcinoma sequence. Some of these research advances (FAP gene carriage) are already being used clinically to identify individuals at risk for colon cancer, and they offer great promise for the future of both prevention and therapeutic programs.
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PMID:Lessons from the genetics of colon cancer. 217 30


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