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)

Both Helicobacter pylori (HP) and Epstein-Barr virus (EBV) have been implicated in carcinogenesis of the stomach. Fifty-seven gastric carcinomas were tested for microsatellite instability and allelic loss at several tumor suppressor loci using 21 polymorphic microsatellite markers. Furthermore, immunohistochemistry for p53 and DPC4/SMAD4 was performed. Results were analyzed according to HP and EBV status of the tumors, as assessed by immunohistochemistry and RNA in situ hybridization, respectively. Fractional allelic loss was lower in EBV-positive carcinomas (n = 15) when compared to EBV-negative carcinomas (P < 0.001). EBV positivity was inversely associated with allelic loss at specific markers on chromosomal arms 5q (APC), 17p (TP53), and 18q (DPC4/SMAD4). Allelic loss at the TP53 locus was not encountered in EBV-positive carcinomas, but occurred in 51% of EBV-negative carcinomas (P < 0.005). Moreover, none of the EBV-positive carcinomas showed unequivocal p53 immunopositivity in contrast to 39% of the EBV-negative carcinomas (P < 0.01). EBV-status was not related to microsatellite instability. There was no correlation between HP-status and any of the molecular alterations tested. In conclusion, EBV-positive gastric carcinomas follow a distinct pathogenesis at the molecular level, in which p53 is not, or differently inactivated.
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PMID:Different pattern of allelic loss in Epstein-Barr virus-positive gastric cancer with emphasis on the p53 tumor suppressor pathway. 1236 94

Molecular biology studies have led to the identification of two different types of colorectal carcinomas. The first group, called LOH (for loss of heterozygosity), represents 80% of colorectal cancers and is characterised by aneuploidy, allelic losses and a location in the distal colon. The second group displays phenotypic microsatellite instability (MSI-positive tumours), has a near-diploid karyotype and a relatively low frequency of allelic losses. It accounts for 15% of all colorectal cancers and for about 30% of right-sided cancers. Four different pathways have been identified as responsible for tumour progression: the WNT/Wingless, the K-ras, the Transforming growth factor (TGF) and the P53 pathways. The involvement of these pathways depends on the tumour type. In LOH-positive tumours, the WNT/Wingless pathway is activated through an APC mutation, whereas MSI+ tumours do so through a catenin stabilising mutation. The TGFb growth inhibitory pathway is altered either by mutations in the signal transduction molecules SMAD2 and SMAD4 in LOH positive tumours or by mutations of TGFbRII in MSI+ tumours. In the p53 pathway, mutations in BAX may contribute to the adenoma-carcinoma transition just as p53 mutations may do in LOH positive tumours. Until now, cancer phenotype determination has had no clinical implications. However, the predictive value of the MSI status was recently stressed as a predictive factor for response to chemotherapy. Immunohistochemistry could represent a complementary strategy to molecular biology in assessing MSI status. This simple test would allow to screen all colorectal carcinomas for MSI status, which would provide valuable management information in addition to the histological assessment for tumour stage and grade.
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PMID:[Genetic pathways in colorectal cancer: interest for the pathologist]. 1241 Jan 50

Intraductal papillary-mucinous tumors (IPMTs) of the pancreas are characterized by dilated pancreatic ducts and ductules that are lined by tall columnar mucin-producing neoplastic epithelial cells. IPMTs have been suggested to be distinct neoplasms with a less aggressive phenotype than that of conventional ductal adenocarcinomas of the pancreas. Molecular mechanisms underlying tumorigenesis of IPMTs are beginning to be characterized. Allelic losses have frequently been detected at 9p, 17p, and 18q, suggesting that inactivation of tumor suppressor genes at these loci play a role in tumorigenesis of IPMTs. Using immunohistochemistry, we analyzed 38 IPMTs, including 9 hyperplasia, 16 adenoma, and 13 carcinoma tissues, for expression of p53, Ki-67, p16, and SMAD4. Nuclear p53 expression was observed in 5 (38%) of 13 carcinoma tissues but not in hyperplasia or adenoma tissues. Partial loss of p16 expression was observed in 9 (56%) and 12 (92%) of the 16 adenoma and 13 carcinoma tissues, respectively. Partial loss of p16 expression was observed even in adenomas with mild atypia. Partial loss of SMAD4 expression was observed in 6 (38%) and 12 (92%) of the 16 adenoma and 13 carcinoma tissues, respectively. The SMAD4 negative index was significantly higher in invasive carcinomas than in non-invasive carcinomas. Our results suggest that loss of p16 is an early event and p53 alteration is a late event during the progression of IPMTs. SMAD4 inactivation appears to be an early event but also involved in invasive tumor growth. Our results suggest that these alterations accumulate during the progression of IPMTs, reflecting results of analysis of allelic losses that showed a stepwise accumulation of genetic changes during progression.
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PMID:Differential roles of alterations of p53, p16, and SMAD4 expression in the progression of intraductal papillary-mucinous tumors of the pancreas. 1246 38

Pancreatic carcinogenesis is still not well characterized and no specific carcinogen has been isolated in humans. Pancreatic adenocarcinoma acquires genetic abnormalities with successive modification of genes involved in the regulation of cell proliferation and differentiation. The kinetic of genetic alterations in pancreatic cancer is not totally elucidated but experimental pancreatic cancer induced by BOP in Syrian golden hamster attempts to approach this problematic. The activating mutation of the K-ras oncogene on codon 12 seems to occur early in pancreatic carcinogenesis regarding the detection of this mutation in preneoplastic dysplastic lesions and tumors such as intraductal mucinous papillary tumors. Tumor suppressor genes are also inactivated leading commonly to the loss of an inhibitory function on cell proliferation. This inactivation occurs with gene mutation, deletion or methylation on one chromosome arm associated with a loss of heterozygosity: it concerns p53, p16/MTS-1, DPC-4/SMAD4. We recently characterized the somatostatin receptor SST2 gene as a potential suppressor gene for pancreatic carcinoma. The kinetic of these gene alterations is unknown in human. At a late stage of tumor development, an increase of telomerase activity, an over expression of growth factors and/or their receptors (EGF, NGF, gastrin, bombesin), of proangiogenic factors (VEGF, FGF, PDGF), of invasiveness factors (metalloproteinases, E-cadherin, urokinase and tissue plasminogen activators) occur. All these molecular events contribute to the progression and to the metastatic potential of this carcinoma. Recently, the identification of human genome and the large scale analysis of transcriptoma will certainly authorize a better knowledge of pancreatic carcinogenesis as well as the identification of new genetic alterations and new clinical markers.
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PMID:[Molecular pathways of pancreatic carcinogenesis]. 1248 52

Pancreatic cancer is a leading cause of cancer-related mortality. Treatment has limited efficacy, and 5-year survival rates remain less than 5%. Insights from epidemiology and discoveries in molecular genetics have laid the groundwork for a rational screening strategy for high-risk individuals. High-risk populations include those in their 6th to 8th decades of life, those with a family history of pancreatic cancer, and those with a personal history of tobacco smoking. Roughly 10% of cases are due to an inherited genetic susceptibility. Several familial syndromes with known genetic defects have been implicated, but the majority of familial cases result from as yet undefined genes. Acquired mutations have been identified in the oncogenes K-ras and HER2/neu, and in the tumor suppressor genes p16, p53, SMAD4, and BRCA2. No standard for screening or prevention exists, but strategies employing endoscopic, radiologic, and molecular methods to screen high-risk individuals are under investigation.
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PMID:Pancreatic cancer: epidemiology, genetics, and approaches to screening. 1252 Jun 39

The incidence and mortality of pancreatic adenocarcinoma are nearly coincident having a five-year survival of less than 5%. Enormous advances have been made in our knowledge of the molecular alterations commonly present in ductal cancer and other pancreatic malignancies. One significant outcome of these studies is the recognition that common ductal cancers have a distinct molecular fingerprint compared to other nonductal or endocrine tumors. Ductal carcinomas typically show alteration of K-ras, p53, p16INK4, DPC4 and FHIT, while other pancreatic tumor types show different aberrations. Among those tumors arising from the exocrine pancreas, only ampullary cancers have a molecular fingerprint that may involve some of the same genes most frequently altered in common ductal cancers. Significant molecular heterogeneity also exists among pancreatic endocrine tumors. Nonfunctioning pancreatic endocrine tumors have frequent mutations in MEN-1 and may be further subdivided into two clinically relevant subgroups based on the amount of chromosomal alterations. The present review will provide a brief overview of the genetic alterations that have been identified in the various subgroups of pancreatic tumors. These results have important implications for the development of genetic screening tests, early diagnosis, and prognostic genetic markers.
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PMID:Genetic abnormalities in pancreatic cancer. 1253 85

Cancer of the exocrine pancreas represents the fifth leading cause of cancer death in the Western population with an average survival after diagnosis of 3 to 6 months and a five-year survival rate under 5%. Our understanding of the molecular carcinogenesis has improved in the last few years due to the development of novel molecular biological techniques. Pancreatic cancer is a multi-stage process resulting from the accumulation of genetic changes in the somatic DNA of normal cells. In this article we describe major genetic alterations of pancreatic cancer, mutations in the proto-oncogene K-RAS and the tumor suppressors INK4A, TP53 and DPC4/SMAD4. The accumulation of these genetic changes leads to a profound disturbance in cell cycle regulation and continuous growth. The knowledge of the underlying molecular mechanisms will offer new therapeutic and diagnostic options and hopefully improve the outcome of this aggressive disease.
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PMID:Genetic alterations in pancreatic carcinoma. 1260 16

Cancer of the biliary tract has been associated with point mutations of K-ras and beta-catenin proto-oncogenes; alterations of p53, p16, APC, and DPC4 tumor suppressor genes by a combination of chromosomal deletion, mutation, or methylation; and infrequently microsatellite instability. The frequencies of these alterations vary by location and race of the patient, tumor subsite, histology, and associated disease. Advances in the understanding of the genetics of this disease will help in diagnosing biliary tract cancer, screening at-risk patients, and developing therapies.
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PMID:Cellular and molecular biology of biliary tract cancers. 1260 85

Our understanding of the molecular pathology of pancreatic carcinoma has improved tremendously over the past few years due to the development of sophisticated molecular techniques. This knowledge has led to the postulation of a pancreatic tumor progression model. This article describes the molecular oncogenesis of pancreatic carcinoma and points out potential targets for therapeutic interventions. Pancreatic cancer is characterized by the sequential acquisition of somatic mutations in the proto-oncogene K-RAS and the tumor suppressors INK4a,TP53 and DPC4/SMAD4 and by epigenetic alterations, including the overexpression of the "epidermal growth factor" receptor/ligand system. These genetic changes cause a profound disturbance to cell cycle regulation and continuous growth. Further analysis of the underlying molecular mechanisms will offer new diagnostic and therapeutic options and hopefully improve the outcome of this grim disease in the future.
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PMID:[Pancreatic carcinogenesis. Clinical implications]. 1264 72

There are a large number of stable pancreatic ductal carcinoma cell lines that are used by researchers worldwide. Detailed data about their differentiation status and growth features are, however, often lacking. We therefore attempted to classify commonly used pancreatic carcinoma cell lines according to defined cell biological criteria. Twelve pancreatic ductal adenocarcinoma cell lines were cultured as monolayers and spheroids and graded according to their ultrastructural features. The grading system was based on the integrity of membrane structures and on the presence of mucin granules, cell organelles, nuclear and cellular polymorphism, cell polarity, and lumen formation. On the basis of the resulting scores the cell lines were classified as well, moderately, or poorly differentiated. In addition, immunocytochemistry was performed for the markers cytokeratin 7, 8, 18, 19, carcinoembryonic antigen, MUC1 MUC2, MUC5, and MUC6. The population doubling time of monolayer cultures, determined by a tetrazolium salt based proliferation assay was correlated with the ultrastructural grade. The grading of the ultrastructural features of the monolayers, and particularly of the spheroids, revealed that Capan-1 and Capan-2 cells were well differentiated; Colo357, HPAF-2, Aspc-1, A818-4, BxPc3, and Panc89 cells were moderately differentiated and PancTu-I, Panc1, Pt45P1, and MiaPaCa-2 cells poorly differentiated. Membrane-bound MUC1 staining was a characteristic of well differentiated cell lines. The population doubling time of the monolayer cultures was related to the differentiation grade. No relationship was found between the p53, K-ras, DPC4/Smad4, or p16(INK4a) mutation status and the grade of differentiation. We conclude that the proposed ultrastructural grading system combined with the proliferative activity provides a basis for further comparative studies of pancreatic ductal adenocarcinoma cell lines.
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PMID:A comprehensive characterization of pancreatic ductal carcinoma cell lines: towards the establishment of an in vitro research platform. 1269 24


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