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: UMLS:C0009402 (colorectal cancer)
53,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hereditary Non-polyposis Colon Cancer Syndrome (HNPCC) is the most common cause of familial colorectal cancer. Molecular genetic studies of HNPCC have shown evidence of locus heterogeneity, and mutations in four genes (hMSH2, hMLH1, hPMS1, and hPMS2) which encode components of the mismatch enzyme repair system may cause HNPCC. To determine the extent and nature of locus heterogeneity in HNPCC, we performed genetic linkage studies in 14 HNPCC families from eastern and north-western England. Linkage to hMLH1 was excluded in six families, each of which were likely to be linked to hMSH2 (lod score > 1.0 in each family and total lod score for all six families = 7.64). Linkage to hMSH2 was excluded in three families, each of which were likely to be linked to hMLH1 (lod score > 1.0 in each family and total lod score at hMLH1 for all three families = 3.93). In the remaining five families linkage to hMSH2 or hMLH1 could not be excluded. These results confirm locus heterogeneity in HNPCC and suggest that, in the population studied, most large families with HNPCC will have mutations in hMSH2 or hMLH1. We did not detect any correlation between clinical phenotype and the genetic linkage results, but a Muir-Torre syndrome family excluded from linkage to hMLH1 was likely to be linked to hMSH2 and showed microsatellite instability in a tumour from an affected relative.
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PMID:Genetic linkage analysis in hereditary non-polyposis colon cancer syndrome. 761 41

Recent studies have demonstrated novel alterations of microsatellite DNA in tumor tissue. The alterations, termed microsatellite instability or replication error phenotype, have now been observed in tumors from patients with hereditary nonpolyposis colorectal cancer (HNPCC), the Muir-Torre syndrome (MTS) and in an increasing number of sporadic tumors. These observations, along with the use of genetic linkage analysis, have led to the identification of at least four genetic susceptibility loci for HNPCC, hMSH2, hMLH1, hPMS1 and hPMS2, each of which are involved in DNA mismatch repair. For those tumors demonstrating microsatellite instability, several different phenotypes may exist, the significance of which is currently unknown. Defective DNA mismatch repair may have important implications for the mechanism of tumorigenesis and the clinical behavior of tumors.
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PMID:Genomic instability in neoplasia. 762 Jan 21

Hereditary nonpolyposis colorectal cancer (HNPCC) is an autosomal dominant disorder characterized by the occurrence within a family of multiple cases of colorectal cancer in the absence of gastrointestinal polyposis. The prevalence of this syndrome is not yet clear, but it may account for 1%-5% of all colorectal cancers. Prior to the identification of the genetic basis of this syndrome, the disease was recognized by the familial aggregation of colorectal cancers that had an early age of onset, an excess of proximally located, and often multiple, primary tumors, and an excess occurrence of cancers in certain other organs. The recent description of an abnormality called "microsatellite instability," present in almost all cancers from HNPCC patients and in about 12%-15% of sporadic cases, led to a series of discoveries that linked this type of genomic instability to a defect in the DNA mismatch repair (MMR) system. Independent investigators have identified four HNPCC genes: hMSH2 (a homologue of the prokaryotic DNA MMR gene MutS) and hMLH1, hPMS1, and hPMS2 (all homologues of the prokaryotic DNA MMR gene MutL). Mutations in each of the four genes have been found in the germline cells of HNPCC families. A major target for research in this area is the development of clinically practical screening tests for the genetic carrier state of HNPCC.
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PMID:Hereditary nonpolyposis colorectal cancer: the syndrome, the genes, and historical perspectives. 767 15

Hereditary nonpolyposis colorectal cancer (HNPCC) is a relatively common autosomal dominant cancer-susceptibility condition. The recent isolation of the DNA mismatch repair genes (hMSH2, hMLH1, hPMS1, and hPMS2) responsible for HNPCC has allowed the search for germ-line mutations in affected individuals. In this study we used denaturing gradient-gel electrophoresis to screen for mutations in the hMSH2 gene. Analysis of all the 16 exons of hMSH2, in 34 unrelated HNPCC kindreds, has revealed seven novel pathogenic germ-line mutations resulting in stop codons either directly or through frameshifts. Additionally, nucleotide substitutions giving rise to one missense, two silent, and one useful polymorphism have been identified. The proportion of families in which hMSH2 mutations were found is 21%. Although the spectrum of mutations spread at the hMSH2 gene among HNPCC patients appears extremely heterogeneous, we were not able to establish any correlation between the site of the individual mutations and the corresponding tumor spectrum. Our results indicate that, given the genomic size and organization of the hMSH2 gene and the heterogeneity of its mutation spectrum, a rapid and efficient mutation detection procedure is necessary for routine molecular diagnosis and presymptomatic detection of the disease in a clinical setup.
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PMID:Seven new mutations in hMSH2, an HNPCC gene, identified by denaturing gradient-gel electrophoresis. 772 59

The hMLH1 protein, composed of 756 amino acids, is the human homologue of the bacterial DNA mismatch repair protein MutL, and germ line mutations of the hMLH1 gene have been identified in kindreds with hereditary nonpolyposis colorectal cancer. We have detected three alternatively spliced forms of hMLH1 mRNA in normal lymphocytes and tissues. One of the spliced forms lacks the coding region of hMLH1 from codons 227 to 295 and the two other transcripts are predicted to encode two truncated proteins retaining the 264 and 226 N-terminal amino acids of hMLH1, respectively. The biological significance of this alternative splicing remains to be established.
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PMID:Alternative splicing of MLH1 messenger RNA in human normal cells. 772 49

Mutation of hMLH1, a gene involved in DNA mismatch repair, is responsible for some families carrying the hereditary non-polypotic colorectal cancer (HNPCC) syndrome. To establish a basis for presymptomatic diagnosis of HNPCC patients who carry germline mutations in this gene, we determined the exon-intron organization of hMLH1. The results indicated that hMLH1 consists of 19 coding exons spanning approximately 100 kb, and that exons 1-7 contain a region that is highly conserved in the MLH1 and PMS1 genes of yeast. We used PCR-SSCP analysis and DNA sequencing to examine the entire coding region of the MLH1 gene in DNAs of 34 unrelated cancer patients who belong to HNPCC pedigrees. Germline mutations were detectable in eight (24%) of these patients; four of them were missense mutations, one had occurred in an intron where it would affect splicing, and the remaining three were frameshift mutations resulting in truncation of the gene product downstream of the mutation site.
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PMID:Genomic structure of human mismatch repair gene, hMLH1, and its mutation analysis in patients with hereditary non-polyposis colorectal cancer (HNPCC) 1176 76

All cancers result from the accumulation of mutations of proto-oncogenes and tumor suppressor genes. Sporadic and familial colorectal cancers result from the accumulation of the following genes, in a relatively stereotyped chronological order: the tumor suppressor gene apc whose mutations are responsible for the familial adenomatous polyposis; the proto-oncogene K-ras which is mutated in 50% of large adenomas (> 1 cm) and adenocarcinomas; the tumor suppressor gene dcc; and the tumor suppressor gene p53 whose inactivation in a factor of bad prognosis. While some of them are induced by mutagens, others result from an instability of the genome. Two types of instability are observed in both sporadic and familial colorectal cancer. The first type, which is found in 25-50% of cases, appears as cytogenetic abnormalities with aneuploidy and allelic losses. The second type of instability is induced by mutations of the hMSH2 or hMLH1 genes which code for proteins involved in the mechanism of DNA repair.
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PMID:[Genes, heredity and colorectal cancer]. 787 58

An activity in human cell extracts is described that repairs DNA with loops of five or more unpaired bases. Repair is strand-specific and is directed by a nick located 5' or 3' to the loop. This repair is observed in a colorectal cancer cell line that is devoid of a wild-type hMLH1 gene and is deficient in repair of mismatches. However, a cell line with deletions in both hMSH2 alleles is deficient in repair of both loops and mismatches. Defects in loop repair may be relevant to the repetitive-sequence instability observed in cancers and other hereditary diseases.
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PMID:DNA loop repair by human cell extracts. 797 26

Hereditary nonpolyposis colorectal cancer (HNPCC) is an autosomal dominantly inherited disease associated with a marked increase in cancer susceptibility, especially cancer of the colorectum. It is one of the most common cancer predisposing syndromes affecting as many as one in 400 individuals in the Western World. Two (mismatch repair) genes (hMSH2 on chromosome 2p and hMLH1 on chromosome 3p) have recently been identified which appear to be involved in the development of cancer in most of the HNPCC families. Colorectal cancer in HNPCC differs from sporadic colorectal cancer by an early age of onset, a proclivity for the proximal colon, and an excess of synchronous and metachronous colorectal cancers. A variety of extracolonic tumors may be encountered in HNPCC, including cancers of the endometrium, stomach, small bowel, urinary tract (renal pelvis and ureter), biliary system and ovary. The diagnosis HNPCC is currently based upon the combined patient and family data. Future identification of HNPCC will be facilitated by the introduction of genetic markers. Identification of HNPCC families is extremely important, because periodic examination may prevent development of disease and death from cancer.
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PMID:What is hereditary nonpolyposis colorectal cancer (HNPCC). 797 95

Mutations in genes associated with the DNA mismatch repair system were considered to play important roles in predisposition to cancer, since hMSH2 and hMLH1, human homologues of yeast MSH2 and MLH1 as well as bacterial mutS and mutL genes, were found to be involved in hereditary nonpolyposis colorectal cancer (HNPCC). In addition, yeast PMS1 that is homologous to bacterial mutL and hexB, has also been proven to be related to the DNA mismatch repair system. As the first step to understand whether human homologue of the yeast PMS1 gene is associated with genetic predisposition to cancer, we have isolated and analyzed human counterpart of yeast PMS1 genes. DNA sequencing analyses indicated that human PMS genes constituted a multiple gene family and that some of the family members have been mapped to chromosomal bands 7q11.23 and 7q22 by fluorescent in situ hybridization.
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PMID:Cloning, characterization and chromosomal assignment of the human genes homologous to yeast PMS1, a member of mismatch repair genes. 798 Jun 3


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