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)

Multiple gastric cancers may develop through the same genetic background: the mutator pathway due to defects in DNA mismatch repair genes, or the suppressor pathway due to defects in tumour suppressor genes. To clarify the critical genetic events in the early stages of multiple gastric cancer development, 29 early and four advanced gastric cancers were examined from 12 patients. Microsatellite alterations were studied involving microsatellite instability (MSI) and loss of heterozygosity (LOH) at tumour suppressor loci, representative of the mutator pathway and the suppressor pathway, respectively, as well as mutations of target genes (TGF-beta RII, BAX, hMSH3, and E2F-4). MSI was determined in ten cancers (10/33; 30.3%) from seven patients (7/12; 58.3%). LOH was detected in six cancers (6/33; 18.2%) from five patients (5/12; 41.7%), most frequently at TP53, in four cancers (4/33; 12.1%) from four patients (4/12; 33.3%). In cases with multiple gastric cancers in the same stomach, the MSI status was generally the same, but in two patients (2/12; 16.8%) a tumour with MSI-H and another with LOH were found to co-exist in the same stomach. As for mutations of the target genes, it was found that E2F-4 was mutated in six cancers (6/33; 18.2%) from four patients (4/12; 33.3%). Furthermore, identical E2F-4 mutations were detected in four of the six intestinal metaplastic mucosae adjacent to each cancer carrying an E2F-4 mutation. No mutations were detected in the other target genes. In conclusion, the present results indicate that the majority of multiple gastric cancers develop from the same genetic background, with the mutator pathway playing a more important role than the suppressor pathway. Mutations of E2F-4 are early events in multiple gastric cancer development, occurring even in the intestinal metaplastic mucosa, with mutations of other target genes to follow during cancer progression.
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PMID:Microsatellite alterations and target gene mutations in the early stages of multiple gastric cancer. 1143 66

Gastric cancer is one of the leading causes of cancer mortality in the world. Gastric adenocarcinomas account for more than 95% of gastric tumors, whereas gastrointestinal stromal tumors (GISTs) are the most common neoplasms of the rare gastric mesenchymal tumors. Although the incidence of mid-distal gastric adenocarcinomas is decreasing, the incidence of gastroesophageal junctional tumors and Barrett's adenocarcinomas is increasing for unknown reasons. The majority of gastric tumors are sporadic in nature. However, there are rare, inherited gastric cancer predisposition traits, such as germline p53 (Li-Fraumeni syndrome) as well as E-cadherin (CDH1) alterations in familial diffuse gastric cancers. Gastric cancer has been observed to be part of the spectrum of neoplasms associated with germline mismatch repair gene (MMR) alterations that give rise to the hereditary nonpolyposis colorectal cancer (HNPCC) entity. Comparative genomic hybridization analyses have identified several amplifications and losses of DNA copy numbers in gastric cancers. Loss of heterozygosity (LOH) studies have shown several chromosomal loci with significant allelic loss, thus indicating the possibility of harboring a tumor suppressor gene important in gastric tumorigenesis. Microsatellite instability (MIS) and associated alteration of the TGF-bIIR, IGFRII, BAX, E2F-4, hMSH3, and hMSH6 genes are found in a subset of gastric carcinomas. Cell adhesion molecule abnormalities such as those involving CDH1 may play an important role in diffuse-type gastric cancer development. Although, multiple somatic alterations have been described in gastric carcinomas at the molecular level, the significance of these changes in gastric tumorigenesis remains to be established in most instances. The critical molecular alterations in gastric cancers that may lead to advances in our armamentarium to combat this lethal disease remain to be fully characterized.
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PMID:Molecular biology of gastric cancer. 1197 14

We characterized four pancreatic carcinoma cell lines (designated SNU-213, SNU-324, SNU-410, and SNU-494) established from histopathologically varied primary or liver metastatic tumor samples of Korean patients. Three cell lines grew as adherent monolayers and one as adherent and floating cell clumps. All lines had: (1) relatively high viability; (2) an absence of mycoplasma or bacterial contamination; (3) genetic heterogeneity as assessed by DNA-fingerprinting analysis; (4) an absence of MADH4 mutation. Among the lines, three lines had mutations in codon 12 in K- ras, two lines harbored p53 mutations within the DNA-binding domain; two lines had homozygous deletions in both p16 and p15 genes; and one line had a missense mutation. Two lines (SNU-324 and SNU-410) had genetic alterations in the TGFBR2 gene: the SNU-324 line had a -1-bp or +1-bp mutation in 10-bp polydeoxyadenine repeat tracts; the SNU-410 line had a genomic deletion in this gene. Mutation analysis of mismatch repair genes demonstrated that SNU-324 has two heterozygous missense mutations in different exons of the hMLH1 gene. In addition, this line showed microsatellite instability and harbored frameshift mutations in simple repeated sequences of the coding regions of the TGFBR2, BAX, and hMSH3 genes. These defects of microsatellite instability and mismatch repair genes suggest the possibility of a new mutator phenotype for pancreatic carcinogenesis. These cell lines should be very useful for studying the biology of pancreatic carcinoma, particularly those related to mutator phenotype and genetic alterations in the TGFBR2 gene.
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PMID:Establishment and characterization of four human pancreatic carcinoma cell lines. Genetic alterations in the TGFBR2 gene but not in the MADH4 gene. 1203 78

Microsatellite instability (MSI) is a hallmark of the DNA mismatch repair deficiency that is one of the pathways of gastric carcinogenesis. Clinicopathologic characteristics of MSI+ gastric cancers remain unclear. To determine the correlation between MSI status and clinical features, we analyzed 327 consecutive gastric cancers for the occurrence of MSI in the BAT-26 marker. Because it has been proven that MSI at BAT-26 reflects the MSI+ phenotype, cancers with alteration at BAT-26 were categorized as having the MSI+ phenotype. The expressions of hMLH1, hMSH2, p53, MUC1, MUC2, and CEA were evaluated immunohistochemically using the tissue array method. The MSI+ phenotype was found in 9.5% (31/327) of gastric cancers examined. MSI+ gastric cancers were significantly associated with older age, antral location, Borrmann's gross Type II, intestinal subtype, lower prevalence of lymph node metastasis, and lower pTNM stage (P <.05). By multivariate logistic regression, MSI+ gastric cancers had a lower prevalence of lymph node metastasis independent of tumor invasion (P <.001). MSI+ gastric cancers displayed frequent frameshift mutations of transforming growth factor-beta type II receptor (90.3%), BAX (61.3%), hMSH3 (38.7%), and E2F4 (61.3%) genes and diminished hMLH1 (24/31) or hMSH2 (4/31) expressions. The MSI+ phenotype correlated with patient survival in advanced gastric carcinoma (P =.046). In conclusion, MSI+ phenotype in gastric cancers was found to have distinct clinicopathologic characteristics and to be predictive of a favorable outcome in advanced carcinoma.
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PMID:Distinct clinical features and outcomes of gastric cancers with microsatellite instability. 1206 77

We examined biological and clinicopathological significance of individual and combined hMLH1, hMSH2, hMSH3 and hMSH6 expression with immunohistochemistry in 301 unselected colorectal cancers. Weak hMLH1 expression was correlated to microsatellite instability (P=0.04), negative p53 expression (P=0.005) and mucinous carcinomas (P=0.02). Weak hMSH2 expression was related to negative ras (P<0.001) and p53 expression (P=0.005), and better survival (P=0.03). hMSH2, hMSH3 and hMSH6, as well as hMLH1, hMSH2, hMSH3 and hMSH6, were combined into a 'functional' and a 'less-functional' group, respectively. Both 'less-functional' groups were/tended to be associated with microsatellite instability, negative ras and p53 expression, and better survival. In summary, hMLH1 and hMSH2 were more important when investigated individually, and the combined groups were more related to the mutator pathway, suggesting that combined deficiencies of the proteins are more efficiently involved in the mutator pathway. Our result from weak versus strong staining may suggest that the intensity of staining should be considered in future studies on mismatch repair proteins.
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PMID:Combined deficiency of hMLH1, hMSH2, hMSH3 and hMSH6 is an independent prognostic factor in colorectal cancer. 1246 83

The deficiency of the DNA mismatch repair (MMR) system is involved in tumorigenesis of either familial or sporadic colorectal cancers showing microsatellite instability (MSI). To investigate the involvement of the mutated hMSH2 gene in carcinogenesis, we searched for alteration of the gene in 15 MSI tumors of Japanese patients with sporadic colorectal cancer by a polymerase chain reaction (PCR)-single strand conformation polymorphism (SSCP) and DNA sequencing analyses. We found 20 alterations including 7 novel mutations, 6 germline and one somatic. To assume an oncogenic pathway of tumor of two patients carrying germline missense mutations, G40S located in an evolutionarily conserved amino-terminal motif and Y619C in a domain interacting with either hMSH3 or hMSH6, somatic mutations in 9 target genes of the MMR defect and in the p53 and K-ras genes and loss of heterozygosity (LOH) at the hMLH1 and p53 gene loci were then studied. In the tumor carrying G40S, other somatic hMSH2 mutations, G203R and 687delA in the (A)(7) repeat, and 5 one-bp deletions in the target genes were found, while no mutation in the p53 and K-ras genes. These results indicate that G40S may affect the hMSH2 function and the tumor may be developed by a typical MSI pathway. In another tumor with Y619C, LOH at the hMLH1 gene locus, no mutation in MMR target genes, and two-hit inactivation of the p53 gene were detected. This MSI tumor seems to be developed by another than MSI pathway. These results indicate that there are different oncogenic pathways in the MSI sporadic colorectal cancers with germline missense mutations in the hMSH2 gene. We conclude that familial colorectal cancer-suspected cases exist in a small population of sporadic colorectal cancers.
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PMID:Oncogenic pathway of sporadic colorectal cancer with novel germline missense mutations in the hMSH2 gene. 1279 35

Genetic aberrations in radiation-associated colorectal cancer have not been studied in detail. We analyzed genetic aberrations in five rectal cancers that developed long after radiotherapy had been performed for cervical cancer. Microsatellite instability (MSI) in tumors was examined at five loci: D2S123, D3S966, TP53, DCC, and BAT26. Mutation of simple repeat sequences within the hMSH3, BAX, and transforming growth factor Beta type II receptor ( TGFBetaRII) genes was examined by polymerase chain reaction and single-strand conformation polymorphism (PCR-SSCP). Mutation of p53 exons 5-8 was examined by PCR-SSP and direct sequencing. Mutations of the K- ras gene were analyzed by two-step PCR. No MSI was found in tumor specimens at any of the loci examined, and no mutations in the target genes were observed. K- ras mutation was detected in two carcinomas, but not in their irradiated normal mucosa, while p53 mutation was observed in another two carcinomas, but not in their irradiated normal mucosa. Our results suggest that the radiation-associated rectal carcinomas examined in this study did not develop through the mutator phenotype pathway; rather, tumorigenesis was probably mediated through the multistep carcinogenesis pathway.
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PMID:Genetic analysis of radiation-associated rectal cancer. 1471 59

In order to understand the role of mismatch repair (MMR) gene in colorectal carcinogenesis,microsatellite instability (MSI) status of 16 microsatellite loci of 62 adenomas from 59 patients, including sporadic and familial adeonmatous polyposis (FAP) adenomas were detected by microdissection-PCR-SSLP, and protein expressions of beta-catenin, P53, and BAX, etc. were assayed by immunohistochemistry. Results were as following: (1)The overall MSI alteration rate of the 16 loci was 14.4%. Different adenomas from the same patient showed different microsatellite alterations at the same loci; (2)All of the five FAP patients were MSI-L, three of which showed MSI at the locus of hMSH3; (3)The membrane expression rate of beta-catenin in adenomas and accompanied carcinomas was 42.9% and 11.4%, respectively (P<0.001); (4)Microsatellite alterations of the microsatellite loci of TP53, D5S346, TCF4(A)(9), TGFbetaRII(GT)(3) and TGFbetaRII(A)(10) were associated with the changes of their protein expressions. It could be concluded the following: (1)Microsatellite instability existed even in the early stage (adenomas) of colorectal tumorigenesis. The alterations of chromosome 1p, APC genes, and the TGFbeta signal transduction pathway could also be deduced; (2)In the progression of adenoma to carcinoma, the staining of beta-catenin would be transferred from membrane to cytoplasm and then nucleus, and the cytoplasm stain was stronger in carcinoma than that in adenomas. The abnormality of the signal transduction pathway of APC-beta-catenin-TCF4 could be concluded.
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PMID:[Microsatellite instability and relative gene expressions in sporadic and familial adenomatous polyposis adenomas]. 1562 58

To establish a fast, simple and solid method of studying microsatellite instability (MSI) in gastric cancer, a panel of 12 microsatellite sites, D1S548, D1S552, D5S346, TP53, IGF II R(G)(8), IGF II R(CT)(5), TGFbetaR II(GT)(3), TGFbetaR II(A)(10), hMSH3(A)(8), hMSH6(G)(8), BAX(G)(8) and Bat26, were detected by denatured polyacrymide gel electrophoresis-silver stain in 28 gastric cancers. Bat26 was also analyzed by denatured high performance liquid chromatograph (DHPLC) at 50 degrees in the DNASep Cartridge. Two MSI-H (7.14%) and 15 MSI-L cancers (53.6%) were identified in 28 gastric cancers. Bat26 was positive only in 2 MSI-H cancers. The alterations of Bat26 and MSI-H status were coincident (P<0.01). The two Bat26+ cancers were also confirmed by DHPLC. Results obtained from DHPLC and gel electrophoresis were completely consistent. Thus, DHPLC analysis of Bat26 site may be a favorable method of detecting MSI-H status in gastric cancer, and be of clinical importance.
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PMID:[DHPLC analysis of microsatellite instability in gastric cancer]. 1564 64

The molecular alterations involved in the pathogenesis of gallbladder cancer are not yet well defined. Our aim was to determine the microsatellite status of gallbladder carcinomas and its possible correlation with alterations in K-ras and p53 genes as well as the clinicopathological characteristics of these tumors. A group of 37 gallbladder carcinomas was analyzed for alterations in a proposed panel of mononucleotide and dinucleotide markers of microsatellite instability. Somatic frameshift mutations at repeated sequences in the coding regions of TGF-betaRII, Bax, hMSH3, hMSH6 were also examined. The findings were correlated with the presence of K-ras and p53 alterations, and tumors' clinicopathological features. Microsatellite instability and/or LOH was observed in 9 gallbladder carcinomas. Cases showing microsatellite instability displayed alterations only in dinucleotide markers and were classified as MSI-L carcinomas. A subset of gallbladder carcinomas is characterized by low-level instability, based on the analysis of the above mentioned panel of markers. The pathway of microsatellite instability seems to play a minor role in the pathogenesis of gallbladder cancer.
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PMID:High-level microsatellite instability is not involved in gallbladder carcinogenesis. 1596 80

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