UMLS:C0009402 - FACTA Search

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

A germ-line mutation of hMSH6 (also called GTBP) was found in a hereditary nonpolyposis colorectal cancer (HNPCC)-like patient in whom germ-line mutations of hMSH2, hMSH3, or hMLH1 had not been detected. The patient had rectal cancer and two colon adenomas at 62 years of age and a weak family history of gastrointestinal tumors, indicating atypical HNPCC. Somatic mutations of hMSH6 were observed in three colorectal tumors from the patient, indicating two-hit inactivation. Microsatellite instabilities at mononucleotide repeats were detected in all three tumors. These data suggest that hMSH6 is responsible for tumorigenesis in atypical HNPCC.
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PMID:Germ-line mutation of the hMSH6/GTBP gene in an atypical hereditary nonpolyposis colorectal cancer kindred. 930 72

To clarify the genetic background of gastric cancer, we collected 28 familial gastric cancers (FGCs) with reference to the Amsterdam criteria in hereditary non-polyposis colorectal cancer (HNPCC) and investigated the frequency of replication error (RER) at six microsatellite loci and frameshift mutations in its related genes in these tumors. RER was detected in seven (25%) of the 28 gastric cancers. Five (18%) cases showed RER at more than two loci. The apparent increased incidence of RER in FGC was not detected compared with that reported in sporadic gastric cancers previously. Among four cases with RER at more than three loci, frameshift mutations in the (A)8 track of the hMSH3 gene were detected in all the four cases and mutations in the (A)10 track of the transforming growth factor-beta type II receptor (TGF-beta RII) gene were detected in the three of them. Histologically, three of the four cases were of the intestinal type, and the other one was the diffuse type. No mutation was detected in the (C)8 and (GT)3 tracks of the hMSH6 and TGF-beta RII genes respectively. These results indicate that the acquisition of the RER phenotype equally influences the gastric carcinogenesis of both sporadic and familial cases, and that the majority of FGC is pathogenetically distinct from HNPCC.
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PMID:RER phenotype and its associated mutations in familial gastric cancer. 949 72

An Egyptian hospital-based pilot case-control study was conducted to investigate the relationship between the expression level of mismatch repair (MMR) genes and the risk of colorectal cancer. The relative expression of five known MMR genes, i.e., hMSH2, hMLH1, hPMS1, hPMS2, and GTBP/hMSH6, was measured by a multiplex reverse transcriptase (RT)-polymerase chain reaction (PCR) in peripheral blood lymphocytes from 31 colorectal cancer patients and 47 age- and-sex matched controls. The expression of hMSH2, GTBP/hMSH6, hPMS1 and hPMS2 tended to be lower in patients than controls, but only the difference in hPMS2 expression was statistically significant (p<0. 01). Although 50% of the cases had chemotherapy or radiotherapy within the last six months before the blood was drawn, their gene expression was not statistically different from those who had not undergone such therapies. After adjustment for age and sex, the odds ratios (OR) calculated from a logistical regression model, using the median levels of gene expression of controls as cut-off values, indicated that increased risk was associated with reduced expressions of both hPMS1 (OR = 3.97, 95% confidence interval (CI) = 1.04 to 7.65) and hPMS2 (OR = 2.86, 95% CI = 1.05 to 7.76). Although the results of this study were inconclusive because of the small sample size and use of prevalent cases, it is biologically plausible that patients with colorectal cancers may have a lower expression of MMR genes than healthy controls because malfunction of these genes has been shown in hereditary nonpolyposis colon cancer. The involvement of low hPMS2 expression in colon cancer risk seems to be unique in the Egyptian population. Further studies with newly diagnosed patients before they begin therapy will provide more convincing data about the role of MMR gene expression in the etiology of colorectal cancers in Egypt.
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PMID:Reduced expression of mismatch repair genes in colorectal cancer patients in Egypt. 959 92

Hereditary non-polyposis colorectal cancer (HNPCC) is an autosomal dominantly inherited syndrome which confers an increased risk for colorectal cancer and endometrial cancer as well as other tumors. It is caused by germline DNA mismatch repair (MMR) gene mutations in five MMR genes, hMSH2, hMLH1, hPMS1, hPMS2 and hMSH6. Finding mutations in these high risk families means that you can offer presymptomatic carrier diagnosis and thereby identify individuals with a very high risk for cancer. These persons benefit from counseling and should be offered surveillance. We have used DGGE to screen members from 34 families for mutations in hMLH1 and hMSH2. Six mutations in five families were found, five of these mutations are new. Besides, three new polymorphisms were identified. The mutations were found in two of seven Amsterdam criteria HNPCC families and in three of four families with at least one case of early onset of CRC (before 35), suggesting there are appropriate families to be chosen for mutation screening in MMR genes.
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PMID:DGGE screening of mutations in mismatch repair genes (hMSH2 and hMLH1) in 34 Swedish families with colorectal cancer. 961 Oct 74

Research in hereditary forms of colorectal cancer (CRC) has increased almost logarithmically thanks in a major way to momentous discoveries in molecular genetics during the past decade. Between 10 and 20% of the total CRC burden is due to Mendelian-inherited CRC syndromes. The paradigm for hereditary CRC is familial adenomatous polyposis (FAP), wherein the APC germ-line mutation has been identified. This has contributed to the elucidation of genomic and clinical heterogeneity within the syndrome, wherein an attenuated form of FAP has been identified as a result of intragenic mutations within this large APC gene. The most common form of hereditary CRC is hereditary nonpolyposis colorectal cancer (HNPCC). Several mutator genes, namely hMSH2, hMLH1, hPMS1, hPMS2 and, more recently, hMSH6/GTBP, have been identified. These molecular genetic discoveries are providing new insights into the pathogenesis of CRC. Individuals within these kindreds who are harbingers of these germ-line mutations will benefit from screening and, one day, chemoprevention.
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PMID:Genetics of colonic cancer. 970 33

Microsatellite instability (MSI) characterizes the hereditary nonpolyposis colorectal cancer syndrome but is also found in sporadic tumors. Frameshifts in microsatellites found in the coding regions (CDRs) of the TGFbeta1-RII, IGFIIR, hMSH3, hMSH6, and BAX genes indicate that MSI is involved in tumorigenesis by targeting genes that are directly implicated in the tumorigenic process. To identify additional genes targeted for MSI, we performed an analysis of the GenBank database that revealed 21 microsatellite repeats located in the CDR of 18 genes (12% of the analyzed sequences) whose function could be potentially associated with the tumorigenic process. Mutational studies of 57 sporadic gastrointestinal tumor DNAs revealed the presence of length variations in three of them: (a) BLM; (b) CBL; and (c) HOXA1. In the BLM gene, we found a frameshift mutation in a polyadenine repeat, whereas in the CBL proto-oncogene, an expansion of a trinucleotide repeat was detected with no translation shift. These alterations were present in 18 and 9%, respectively, of the genetically unstable sporadic gastrointestinal tumors analyzed, but in none of the cancers without the mutator phenotype. These changes were present in the DNA from the tumor but not in that from normal cells of the same patient. The HOXA1 retraction of a trinucleotide repeat was as frequent in both types of cancers and was also found in some normal paired tissues, therefore behaving as a neutral polymorphism. Our data extend the spectrum of unstable microsatellites located in gene CDRs and suggest that BLM and possibly CBL are involved in gastrointestinal tumorigenesis. Based on its proposed function, the BLM gene could represent a link between MSI and chromosomal instability pathways, because MSI targeting of the BLM gene could generate hypermutability and/or chromosomal instability.
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PMID:The coding region of the Bloom syndrome BLM gene and of the CBL proto-oncogene is mutated in genetically unstable sporadic gastrointestinal tumors. 973 83

Genetic instability is closely correlated to the pathogenesis of hereditary non-polyposis colon cancer (HNPCC), which is clinically characterized by a family history and early onset. To investigate the role of genetic instability in young patients with colorectal cancer (CRC), 22 CRC patients, who were aged younger than 30 at the time of diagnosis, were studied. Patients with familial adenomatous polyposis were excluded. Among the 22 cases, seven were identified as microsatellite instability positive (MI+), and more than five microsatellite markers among the 15 tested markers showed an additional band pattern in the tumor tissue. None of the remaining 15 cases showed instability in any microsatellite marker. Two of seven MI+ cases were classic HNPCC. While all MI+ cases had one or no metastatic lymph node, 53.3% of MI- cases showed metastasis in two or more regional lymph nodes. Allelic deletion of the 17p12-13 chromosome around the p53 locus occurred in 16.7% of MI+ cases, and 80.0% of MI- cases showed loss of heterozygosity at that locus. hMSH2 Protein expression, assessed by immunohistochemistry, was absent in two cases, both of which were MI+. When we tested two to four sites of MI+ tumors, transforming growth factor beta receptor type II was mutated in a homogeneous pattern in five MI+ cases. In addition, frame-shift mutations of BAX, insulin-like growth factor II receptor, hMSH3 and hMSH6 were found in three cases, five cases, five cases and one case, respectively. In contrast to the consistent mutation of the transforming growth factor-beta receptor type II gene, mutations of other genes varied in different portions of the tumors.
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PMID:Microsatellite instability in young patients with colorectal cancer. 973 5

Nonsteroidal anti-inflammatory drugs (NSAIDs) are well-known cancer preventives, which have been largely attributed to their antiproliferative and apoptosis-inducing activities. In this study, we show that microsatellite instability (MSI) in colorectal cancer cells deficient for a subset of the human mismatch repair (MMR) genes (hMLH1, hMSH2, and hMSH6), is markedly reduced during exposure to aspirin or sulindac [or Clinoril, which is chemically related to indomethacin (Indocin)]. This effect was reversible, time and concentration dependent, and appeared independent of proliferation rate and cyclooxygenase function. In contrast, the MSI phenotype of a hPMS2-deficient endometrial cancer cell line was unaffected by aspirin/sulindac. We show that the MSI reduction in the susceptible MMR-deficient cells was confined to nonapoptotic cells, whereas apoptotic cells remained unstable and were eliminated from the growing population. These results suggest that aspirin/sulindac induces a genetic selection for microsatellite stability in a subset of MMR-deficient cells and may provide an effective prophylactic therapy for hereditary nonpolyposis colorectal cancer kindreds where alteration of the hMSH2 and hMLH1 genes are associated with the majority of cancer susceptibility cases.
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PMID:Aspirin suppresses the mutator phenotype associated with hereditary nonpolyposis colorectal cancer by genetic selection. 973 31

During the last few years, the molecular basis of several cancer predisposition syndromes has been discovered which offers new tools for cancer prevention and early detection. This will be demonstrated in one of the most frequent hereditary cancer syndromes, namely the hereditary nonpolyposis colorectal cancer (HNPCC) which accounts for about 5% to 8% of CRC. Thereby, families with exclusively CRC (Lynch type I syndrome) and those with extracolonic cancers especially of endometrium, stomach, small bowel and upper urinary tract (Lynch type II syndrome) can be discriminated. At the molecular level, HNPCC is caused by germline mutations in one of the mismatch repair genes (hMSH2, hMLH1, hMSH6, hPMS2). Thus, nucleotide mispairings occurring particularly within simple repetitive genomic sequences (microsatellites) during replication are no longer be repaired properly and can be demonstrated by PCR as so-called microsatellite instability (MSI). Since more than 90% of HNPCC associated and only about 15% of sporadic CRC show MSI, this test is a useful tool for HNPCC screening. In case of a negative result HNPCC is highly unlikely. In positive cases (with > or = 2 out of 5 unstable defined microsatellite markers) the definite molecular diagnosis can only be obtained by sequencing the mismatch repair genes from the patient's blood or normal DNA. As immunohistochemistry reveals loss of hMSH2 or hMLH1 expression in most MSI positive CRC, these data provide useful information for the sequencing strategy. Molecular tumor screening by MSI test and immunohistochemistry is recommended in patients i.) with a positive family history (acc. to the Amsterdam criteria), ii.) suffering from multiple HNPCC related carcinomas, iii.) with HNPCC related cancer before 45 ys of age, and iv.) with right-sided CRC exhibiting medullary, signet-ring or mucinous differentiation. Finally, these tests as well as genetic counseling and treatment of the patient need to be done by an interdisciplinary approach. Thereby, the pathologist can substantially contribute to identify HNPCC related carcinomas either by clinical or morphological criteria and to initiate the molecular screening test.
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PMID:[Molecular cancer disposition diagnosis exemplified by colorectal carcinoma. What is the contribution of pathology?]. 974 11

Mutations in the human mismatch repair protein hMSH2 have been found to cosegregate with hereditary nonpolyposis colorectal cancer (HNPCC). Previous biochemical and physical studies have shown that hMSH2 forms specific mispair binding complexes with hMSH3 and hMSH6. We have further characterized these protein interactions by mapping the contact regions within the hMSH2-hMSH3 and the hMSH2-hMSH6 heterodimers. We demonstrate that there are at least two distinct interaction regions of hMSH2 with hMSH3 and hMSH2 with hMSH6. Interestingly, the interaction regions of hMSH2 with either hMSH3 or hMSH6 are identical and there is a coordinated linear orientation of these regions. We examined several missense alterations of hMSH2 found in HNPCC kindreds that are contained within the consensus interaction regions. None of these missense mutations displayed a defect in protein-protein interaction. These data support the notion that these HNPCC-associated mutations may affect some other function of the heterodimeric complexes than simply the static interaction of hMSH2 with hMSH3 or hMSH2 with hMSH6.
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PMID:Interactions of human hMSH2 with hMSH3 and hMSH2 with hMSH6: examination of mutations found in hereditary nonpolyposis colorectal cancer. 977 76

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