UMLS:C0699790 - FACTA Search

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Query: UMLS:C0699790 (colon cancer)
28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Approximately 6% of colorectal cancers can be attributed to recognizable heritable germline mutations. Familial adenomatous polyposis is an autosomal dominant syndrome classically presenting with hundreds to thousands of adenomatous colorectal polyps that are caused by mutations in the APC gene. Adenomas typically develop in the midteens in these patients, and colorectal cancer is a virtual certainty if this condition is untreated. A low-penetrance susceptibility allele that is common in Jews from Eastern Europe, APC 11307K, confers a two-fold increased risk of colorectal cancer without the full expression of familial adenomatous polyposis. Biallelic mutations in the MYH gene are associated with an attenuated familial adenomatous polyposis phenotype. Lynch syndrome (hereditary nonpolyposis colorectal cancer) is an autosomal dominant disorder characterized by early onset of colorectal cancer with microsatellite instability. Mutations in mismatch repair genes lead to a lifetime colon cancer risk of 85% in these patients; carcinomas of the endometrium, ovary, and other organs also occur with increased frequency. Although adenomas are not characteristic of the hamartomatous polyp syndromes such as juvenile polyposis and Peutz-Jeghers syndrome, individuals with these diseases have a markedly increased risk of colorectal cancer relative to the general population. In this review, we will describe the phenotypes, genotypes, diagnosis, and management of hereditary colon cancer syndromes.
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PMID:Genetics of colorectal cancer. 1662 58

The evolutionary conserved mismatch repair proteins correct a wide range of DNA replication errors. Their importance as guardians of genetic integrity is reflected by the tremendous decrease of replication fidelity (two to three orders of magnitude) conferred by their loss. Germline mutations in mismatch repair genes, predominantly MSH2 and MLH1, have been found to underlie the Lynch syndrome (also called hereditary non-polyposis colorectal cancer, HNPCC), a hereditary predisposition for cancer. Lynch syndrome affects predominantly the colon and accounts for 2-5% of all colon cancer cases. During more than 30 years of biochemical, crystallographic and clinical research, deep insight has been achieved in the function of mismatch repair and the diseases that are associated with its loss. We review the biochemistry of mismatch repair and also introduce the clinical, diagnostic and genetic aspects of Lynch syndrome.
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PMID:DNA mismatch repair and Lynch syndrome. 1682 Oct 93

Norwegian health care for persons at risk for inherited colorectal cancer is regulated by national legislation on the use of predictive genetic testing and conforms with the international guidelines. This paper from the Norwegian Group on Inherited Cancer, is a consensus between all medical genetic institutions in Norway who handle hereditary colorectal cancer. The recommendations take locally available technology and health care resources into account and are realistic with regard to what can be done within the structure of the Norwegian health service. It gives an update of known genetic syndromes, including colorectal cancer, and indications for remitting patients to genetic examinations. The medical health care is detailed for each genetic group and includes prophylactic surgery and follow-up aimed at early diagnosis and treatment according to international standards. Genetic examinations include a thorough family history verified by medical files for all affected relatives, and comprehensive genetic testing for known syndromes in question. For hereditary colon cancer syndrome (HNPCC), the approach is to screen one tumour in a family member who is an obligate carrier with immunohistochemistry for lack of mismatch gene products, and --if found--proceed to full mutation analysis of the corresponding gene. The clinical geneticists are responsible for coordinating health services to those in need. They also have an obligation to collaborate to present the empirical results of the interventions made.
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PMID:[Handling of hereditary intestinal cancer]. 1691 19

Colorectal cancer (CRC) forms through a series of histologic steps that are accompanied by mutations and epigenetic alterations, which is called the polyp-cancer sequence. The role of epigenetic alterations, such as aberrant DNA methylation, in the polyp-cancer sequence in sporadic CRC and particularly in hereditary colon cancer is not well understood. Consequently, we assessed the methylation status of CDKN2A/p16, MGMT, MLH1 and p14(ARF) in adenomas arising in the Lynch syndrome, a familial colon cancer syndrome caused by MLH1 and MSH2 mutations, to determine if DNA methylation is a "second hit" mechanism in CRC and to characterize the role of DNA methylation in the polyp phase of the Lynch syndrome. We found MLH1 and p14(ARF) are methylated in 53 and 60% of the Lynch syndrome adenomas and in 4 and 20% of sporadic adenomas, whereas CDKN2A/p16 and MGMT are methylated in 6 and 14% of the Lynch syndrome adenomas versus 50 and 64% of sporadic adenomas. Therefore, the frequency and pattern of gene methylation varies between the Lynch syndrome and sporadic colon adenomas, implying differences in the molecular pathogenesis of the tumors. MLH1 methylation in the Lynch syndrome adenomas suggests gene methylation might have a role in the initiation of these neoplasms.
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PMID:Evidence for the role of aberrant DNA methylation in the pathogenesis of Lynch syndrome adenomas. 1727 92

Colon cancer, the third leading cause of mortality from cancer in the United States, afflicts about 150,000 patients annually. More than 10% of these patients exhibit familial clustering. The most common and well characterized of these familial colon cancer syndromes is hereditary nonpolyposis colon cancer syndrome (Lynch syndrome), which accounts for about 2% to 3% of all cases of colon cancer in the United States. We review the current knowledge of familial cancer syndromes, with an emphasis on Lynch syndrome and familial adenomatous polyposis.
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PMID:Syndromic colon cancer: lynch syndrome and familial adenomatous polyposis. 1831 39

Hereditary non-polyposis colon cancer is caused by mutations in DNA mismatch repair genes. The mutation spectrum in the Israeli population is poorly documented except for the c.1906G>C Ashkenazi founder mutation in the hMSH2 gene. To report our experience in HNPCC screening, the mutations detected and the clinical features among a cohort of Israeli patients. Diagnostic work-up was done in a multi-step process guided by clinical and ethnic information. Tumors of suspected patients were tested for microsatellite instability and immunohistochemistry. Based on tumor analyses, we proceeded to mutation screening by DHPLC followed by sequence analysis and multiplex ligase dependent probe amplification. Ashkenazi Jews were first tested for the c.1906G>C founder mutation. Of the 240 families, 24, including Arabs and Jews from different ethnic origins, were tested positive. All tumors that lost expression of mismatch repair proteins also showed microsatellite instability. There was evidence for involvement of hMSH2 (15) hMLH1 (6) and hMSH6 (3) genes. Mutations were identified in 17/24 (71%) patients: 6 Ashkenazi families harbored the c.1906G>C mutation. Eleven other mutations (2 nonsense, 3 splice site and 6 small deletions) were detected. Three of the mutations are novel. No gross deletions or insertions were detected. This is the first report that characterizes the profile of HNPCC in a cohort of patients in Israel. Tumor testing indicated that the 3 main MMR genes are involved, and that mutation spectrum is broad.
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PMID:Mutation spectrum in HNPCC in the Israeli population. 1838 88

Mismatch repair deficiency in tumors can result from germ line mutations in one of the mismatch repair (MMR) genes (MLH1, MSH2, MSH6 and PMS2), or from sporadic promoter hypermethylation of MLH1. The role of unclassified variants (UVs) in MMR genes is subject to debate. To establish the extend of chromosomal instability and copy neutral loss of heterozygosity (cnLOH), we analyzed 41 archival microsatellite unstable carcinomas, mainly colon cancer, from 23 patients with pathogenic MMR mutations, from eight patients with UVs in one of the MMR genes and 10 cases with MLH1 promoter hypermethylation. We assessed genome wide copy number abnormalities and cnLOH using SNP arrays. SNP arrays overcome the problems of detecting LOH due to instability of polymorphic microsatellite markers. All carcinomas showed relatively few chromosomal aberrations. Also cnLOH was infrequent and in Lynch syndrome carcinomas usually confined to the locus harbouring pathogenic mutations in MLH1, MSH2 or PMS2 In the carcinomas from the MMR-UV carriers such cnLOH was less common and in the carcinomas with MLH1 promoter hypermethylation no cnLOH at MLH1 occurred. MSI-H carcinomas of most MMR-UV carriers present on average with more aberrations compared to the carcinomas from pathogenic MMR mutation carriers, suggesting that another possible pathogenic MMR mutation had not been missed. The approach we describe here shows to be an excellent way to study genome-wide cnLOH in archival mismatch repair deficient tumors.
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PMID:Genome-wide copy neutral LOH is infrequent in familial and sporadic microsatellite unstable carcinomas. 1841 27

About 90% of gastric cancer (GC) cases appear in a sporadic setting. Nonetheless, in high incidence areas high familial aggregation rates have been recently described. Microsatellite instability (MSI) is thought to be an important molecular phenotype both in sporadic GC and in tumors of the HNPCC spectrum. The aim of this study was to assess the frequency of MSI in GC with familial aggregation. Five quasimonomorphic mononucleotide repeats (BAT-26, BAT-25, NR-24, NR-21 and NR-27) were analyzed in 250 GC patients. Seventy-five patients (30%) had at least one-first-degree family member affected by GC and 63 patients (25.2%) showed MSI. The frequency of MSI was significantly higher in patients with a positive family history of GC (38.7%) compared to patients with other tumor types within the family (15.7%) or with a negative oncological familial history (21.9%, P = 0.004). Within cases with a positive familial oncological history, the MSI frequency in families with GC only was similar to the one observed in families with GC and colon cancer (P = 0.96). Nonetheless, in families with GC and lung cancer, the frequency of MSI was significantly lower (5.6%, P = 0.007). MSI occurs in GCs with familial aggregation. Similar MSI rates have been observed in GC patients with other family members affected by GC or colon cancer. The same does not occur in families with other members affected by lung cancer. Our data seem to suggest that familial aggregation for either GC alone or gastric and colon cancer share common etiological factors in contrast to families with gastric and lung cancers.
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PMID:Evidence of tumor microsatellite instability in gastric cancer with familial aggregation. 1915 22

Genetically engineered mice are essential tools in both mechanistic studies and drug development in colon cancer research. Mice with mutations in the Apc gene, as well as in genes that modify or interact with Apc, are important models of familial adenomatous polyposis. Mice with mutations in the beta-catenin signaling pathway have also revealed important information about colon cancer pathogenesis, along with models for hereditary nonpolyposis colon cancer and inflammatory bowel diseases associated with colon cancer. Finally, transplantation models (xenografts)have been useful in the study of metastasis and for testing potential therapeutics. This review discusses what models have been developed most recently and what they have taught us about colon cancer formation, progression, and possible treatment strategies.
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PMID:Mouse models of colon cancer. 1926 94

Lynch syndrome or hereditary nonpolyposis colorectal cancer (HNPCC) is one of the commonest cancer susceptibility syndromes. It is characterized by early onset colon cancer and a variety of extracolonic tumours. Germline mutations in the DNA mismatch repair genes (MLH1, MSH2, MSH6, PMS1, and PMS2) are responsible for this disorder. Identifying an affected individual depends on the tumour histopathology, family history that fulfils the Amsterdam and/or Bethesda criteria, tumour immunohistochemistry, microsatellite instability, and finally molecular analysis of an affected member. It is a laborious, time consuming and expensive procedure, which needs the effort of a multi-disciplinary team. However, once the diagnosis is established and germline defect is identified, other high risk pre-symptomatic carriers could be offered intensive surveillance and management as a preventive measure against cancer development. Here, we present two large highly consanguineous HNPCC-families from Kuwait in whom a founder MSH2 mutation was identified. The relationship between this mutation and cancer expressivity in two large consanguineous families harbouring other genetic defects is discussed. Moreover, we shed light on the challenges pertaining to diagnosis, screening, premarital counselling of couples and prenatal diagnosis of offspring with biallelic MSH2 gene mutation.
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PMID:Impact of 226C>T MSH2 gene mutation on cancer phenotypes in two HNPCC-associated highly-consanguineous families from Kuwait: emphasis on premarital genetic testing. 1966 1

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