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 colorectal cancer (HNPCC) is associated with mutations in four different genes encoding proteins involved in DNA mismatch repair (DMR). As many as 30% of the observed sequence variations in human DMR genes predict minor alterations in the encoded protein, such as amino acid (aa) replacements or small in-frame deletions/insertions. For such sequence variants, a functional genetic test will be required to discriminate mutations from polymorphisms. We have constructed a series of isogenic yeast strains in which individual genes involved in DMR are disrupted, and have standardized an assay which measures GT tract stability (Strand et al., 1993) to characterize these gene products. Disruptions of the yeast MSH2, MLH1, and PMS1 genes result in, respectively, a 290-, 450- and 390-fold increased tract instability over the wild type (wt) strain under optimized assay conditions. Expression of the wt MSH2 and PMS1 gene from plasmids results in complementation of the corresponding chromosomal gene disruption. Two different aa replacements which correspond to previously observed sequence variants of the human MSH2 gene, and implicated in HNPCC, were created in the conserved aa of the yeast MSH2 gene by site directed mutagenesis. Conversion of the Pro640 in the yeast protein to Leu resulted in a complete loss of protein function. In contrast, a yeast MSH2p protein in which the His658 is changed to Tyr retains full function in this in vivo assay. These results indicate that the Pro-->Leu and His-->Tyr variants observed in humans constitute, respectively, a mutation and a polymorphism. The system described here may be used for further structure/function analysis of yeast DMR proteins. Such studies may provide insight into the effects that specific sequence variations observed in human DMR proteins have on their function.
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PMID:Functional genetic tests of DNA mismatch repair protein activity in Saccharomyces cerevisiae. 963 May 99

Ovarian cancer is a disease that will affect approximately 1% of American women during their lifetime, and contributes to more than 14,000 deaths annually. If not detected early, this disease has a 5-year survival rate of less than 20%. Ovarian cancer develops predominantly from the malignant transformation of a single cell type, the surface epithelium. Although the biological mechanisms of transformation remain unclear, it is probably a multistep process requiring an accumulation of genetic lesions in a number of different gene classes. Several proto-oncogenes, such as AKT2 and Ki-RAS, are activated during ovarian cancer development, with putative oncogene-containing chromosomal regions showing imbalances and DNA amplifications. A number of chromosomal regions are also lost in ovarian tumors, indicating that the inactivation of tumor suppressor genes, such as TP53, may also contribute to cancer development. An important recent advancement in the field of ovarian cancer research is the identification of the breast/ovarian cancer susceptibility genes, BRCA1 and BRCA2. Mutations in these two tumor suppressor genes are responsible for the majority of heritable forms of epithelial ovarian cancers. A second class of genes involved in DNA mismatch repair (MMR) are responsible for most cases of hereditary nonpolyposis colorectal cancer (HNPCC). HNPCC or Lynch II cancer syndrome patients are also at an increased risk for developing ovarian cancer. Individuals in cancer-prone kindreds are currently being screened for germline mutations in BRCA1, BRCA2, and several MMR genes (eg, MSH2, MLH1), and mutant allele carriers counseled for cancer risks. Issues related to counseling and management of women at high risk for developing ovarian cancer are discussed. Although BRCA1, BRCA2, and a number of MMR genes have been identified, many more genes involved in gynecologic malignancies remain to be discovered and the clinical significance of the cancer genes already known is still in its infancy.
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PMID:Genetics and ovarian carcinoma. 963 40

Hereditary non-polyposis colorectal cancer (HNPCC) is a genetically heterogeneous disease for which PMS2 gene, a member of the human PMS gene family, is believed to have a marginal role. To better define the contribution of PMS2 to hereditary colorectal cancer, we investigated this gene in 22 unrelated Italian patients that, despite a positive family history and/or early onset and development of tumors with microsatellite instability (MSI), did not carry constitutional mutations of MLH1 and MSH2 genes. No mutations with clear-cut pathogenetic significance were detected in the coding regions of PMS2 gene, but only 8 polymorphisms (7 common and 1 rare, 3 silent and 5 missense) and 3 unique molecular variants (2 missense substitutions and one 3-nucleotide deletion) were seen. Lack of PMS2 truncating mutations in our study does not disagree with its supposed marginal involvement in hereditary colorectal cancer, but at the same time points out the need to investigate the phenotypic molecular and clinical characteristics more specifically associated with PMS2 mutations.
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PMID:Lack of PMS2 gene-truncating mutations in patients with hereditary colorectal cancer. 968 94

We have cloned and characterized the human orthologue of the Saccharomyces cerevisiae MutS homologue 5 (MSH5) cDNA, as well as the human gene that encodes the MSH5 cDNA, as a step toward understanding the molecular genetic mechanisms involved in the biological function of this novel human protein. The identified cDNA contains a 2505-bp open reading frame (ORF) that encodes an 834-amino-acid polypeptide with a predicted molecular mass of 92.9 kDa. The amino acid sequence encoded by this cDNA includes sequence motifs that are conserved in all known MutS homologues existing in bacteria to humans. The cDNA appears, on the basis of amino acid sequence analysis, to be a member of the MutS family and shares 30% sequence identity with that of S. cerevisiae MSH5, a yeast gene that plays a critical role in facilitating crossover during meiosis. Northern blot analysis demonstrated the presence of a 2.9-kb human MSH5 mRNA species in all human tissues tested, but the highest expression was in human testis, an organ containing cells that undergo constant DNA synthesis and meiosis. The expression pattern of human MSH5 resembled that of the previously identified human MutS homologues MSH2, MSH3, and MSH6-genes that are involved in the pathogenesis of hereditary nonpolyposis colorectal cancer (HNPCC). In an effort to expedite the search for potential disease association with this new human MutS homologue, we have also determined the chromosomal location and structure of the human MSH5 locus. Sequence and structural characterization demonstrated that MSH5 spans approximately 25 kb and contains 26 exons that range in length from 36 bp for exon 8 to 254 bp for exon 25. MSH5 has been mapped to human chromosome band 6p21.3 by fluorescence in situ hybridization. Knowledge of the sequence and gene structure of MSH5 will now enable studies of the possible roles MSH5 may play in meiosis and/or DNA replicative mismatch repair.
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PMID:Cloning, structural characterization, and chromosomal localization of the human orthologue of Saccharomyces cerevisiae MSH5 gene. 974 Jun 71

We have shown the impact of molecular diagnostics related to mutation detection in an extensive family with a strong history of colorectal cancer. The nature and presentation of the cancers suggested that hereditary nonpolyposis colorectal cancer was the most likely cause. The strategies employed have enabled the detection and characterisation of the causative mutation in the proband and predictive testing in the remaining relatives where requested. Using the chemical cleavage of mismatches technique and direct sequencing, the MSH2 and MLH1 genes of the proband were investigated. A single base substitution, C-->T at nucleotide 350, codon 117, of the MLH1 gene was identified. Across the family pedigree at specific points, 22 other relatives have been tested for the mutation by direct DNA sequencing from genomic DNA. Of the total of 23 patients tested to date, 11 have the mutation. In conjunction with appropriate genetic counselling, this service has clarified the genetic status of many individuals within this family. Predictive information provided prior to the development of symptoms enables individuals to make informed choices regarding disease management and the future, removing the anxiety associated with the unknown.
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PMID:The impact of molecular diagnosis on familial colorectal cancer. 980 77

DNA mismatch repair genes have been reported to play a role in the pathogenesis of hereditary nonpolyposis colorectal cancer (HNPCC). Mutations of DNA mismatch repair genes have accounted for 90% of HNPCC-related colon and endometrial tumors. These mutations have been associated with microsatellite instability (MIN). Because endometrial cancer (EC) is the most common extracolonic malignancy associated with HNPCC, we hypothesized that similar molecular alterations may occur in sporadic endometrial tumors exhibiting MIN. Mutational analysis of the MSH2 and MLH1 genes was undertaken in sporadic EC that demonstrate MIN to determine the role of these genes in the pathogenesis of sporadic ECs. Established microsatellite markers were used to determine the incidence of MIN from 28 patients with sporadic EC. MIN was observed in 32% (9 of 28) of the tumor specimens analyzed. Mutational analysis of MSH2 and MLH1 genes was performed by immunohistochemical analysis and direct sequencing of tumor specimens that exhibited MIN. All 28 tumor specimens exhibited strong nuclear staining with both MSH2 and MLH1 antibodies, suggesting the absence of mutations. Sequencing of all exons of both the MSH2 and MLH1 genes in the nine MIN-positive tumor specimens demonstrated no mutations. We conclude that the MSH2 and MLH1 genes do not play a role in the pathogenesis of sporadic endometrial cancer.
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PMID:Absence of mutations in DNA mismatch repair genes in sporadic endometrial tumors with microsatellite instability. 981 48

The extracolonic tumor spectrum of hereditary nonpolyposis colorectal cancer (HNPCC) includes cancer of the endometrium, ovaries, stomach, biliary tract, and urinary tract. This study was designed to determine the penetrance of colorectal and extracolonic tumors in HNPCC mutation carriers. Forty-nine patients (22 females and 27 males) were identified with an MSH2 germline mutation, and 56 patients (28 females and 28 males) were identified with an MLH1 I mutation. Cumulative incidence by age 60 (lifetime risk) and mean age of cancer diagnosis were compared. The lifetime risk of extracolonic cancers in MSH2 and MLH1 carriers was 48% and 11%, respectively (P = 0.016). Extracolonic cancer risk in MSH2 females and males was 69% and 34%, respectively (P = 0.042). Mean age of extracolonic cancer diagnosis was significantly older for MSH2 males than females (55.4 vs. 39.0, P = 0.013). No difference was observed in colorectal cancer risk between MLH1 and MSH2 carriers (84% vs. 71%). Colorectal cancer risk was 96% in MSH2 males compared to 39% in MSH2 females (P = 0.034). No differences in colorectal and extracolonic cancer risks between MLH1 females and males were identified. The risk of extracolonic cancer by age 60 was greater in MSH2 mutation carriers than in MLH1 carriers. Gender differences in colorectal and extracolonic cancer risk were observed for MSH2 carriers only. These phenotypic features of HNPCC genotypes may have clinical significance in the design of genotype-specific screening, surveillance, and follow-up for affected individuals.
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PMID:Cumulative incidence of colorectal and extracolonic cancers in MLH1 and MSH2 mutation carriers of hereditary nonpolyposis colorectal cancer. 984 70

Genetic instability of microsatellite repeat sequences [microsatellite instability (MI)] is commonly seen in tumors associated with the hereditary nonpolyposis colorectal cancer syndrome and is a result of inactivating mutations in any of several genes involved in a particular pathway of DNA mismatch repair. Sporadic (i.e., nonhereditary) manifestations of several tumor types, including colorectal, gastric, and endometrial carcinomas, also exhibit MI in a significant fraction of cases. Many MI+ sporadic colorectal carcinomas are associated with somatic mutations of mismatch repair genes, and several genes with coding region microsatellites are frequently mutated as a result in these cancers. The molecular causes and consequences of MI in sporadic endometrial carcinomas remain obscure, however. The aims of this study were: (a) to identify a series of sporadic endometrial carcinomas with clear evidence of MI; (b) to determine the extent to which somatic alterations in mismatch repair genes are associated with this MI; and (c) to establish whether the genes containing coding region microsatellite repeats that are known to be disrupted in MI+ gastrointestinal cancers are also disrupted in MI+ endometrial carcinomas. Matched pairs of normal and tumor DNA from 57 consecutive cases of endometrial carcinoma were examined for evidence of MI using a consensus panel of microsatellite markers. Fourteen cases (25%) displayed unequivocal evidence of MI, consistent with previously published estimates of the incidence of MI+ sporadic endometrial carcinoma. These cases were subjected to a mutation screen of the coding regions and exon-intron boundaries of the mismatch repair genes MSH2 and MLH1. Although several polymorphisms were detected, no clearly deleterious mutations were found in either of these genes. Notably, however, hypermethylation of the MLH1 promoter region was identified in 10 of 14 (71%) MI+ cases. Somatic mutations in coding region microsatellite repeats in the TGFbetaIIR, IGFIIR, BAX, E2F4, MSH3, MSH6, BRCA1, and BRCA2 genes were generally rare. Four MI+ tumors (29%) contained somatic mutations in the PTEN gene, only one of which was likely the result of MI. These data indicate that somatic mutational inactivation of known mismatch repair genes does not account for the great majority of sporadic endometrial carcinomas with MI and that a significant fraction of these cases may instead be causally associated with hypermethylation of the MLH1 promoter. Furthermore, genes with coding region microsatellites that are frequently mutated in MI+ gastrointestinal cancers are rarely mutated in MI+ endometrial cancers, implying the existence of alternative molecular targets for the tumorigenic effects of MI in this tumor type.
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PMID:Causes and consequences of microsatellite instability in endometrial carcinoma. 992 63

The frequency, origin, and phenotypic expression of a germline MSH2 gene mutation previously identified in seven kindreds with hereditary non-polyposis cancer syndrome (HNPCC) was investigated. The mutation (A-->T at nt943+3) disrupts the 3' splice site of exon 5 leading to the deletion of this exon from MSH2 mRNA and represents the only frequent MSH2 mutation so far reported. Although this mutation was initially detected in four of 33 colorectal cancer families analysed from eastern England, more extensive analysis has reduced the frequency to four of 52 (8%) English HNPCC kindreds analysed. In contrast, the MSH2 mutation was identified in 10 of 20 (50%) separately identified colorectal families from Newfoundland. To investigate the origin of this mutation in colorectal cancer families from England (n=4), Newfoundland (n=10), and the United States (n=3), haplotype analysis using microsatellite markers linked to MSH2 was performed. Within the English and US families there was little evidence for a recent common origin of the MSH2 splice site mutation in most families. In contrast, a common haplotype was identified at the two flanking markers (CA5 and D2S288) in eight of the Newfoundland families. These findings suggested a founder effect within Newfoundland similar to that reported by others for two MLH1 mutations in Finnish HNPCC families. We calculated age related risks of all, colorectal, endometrial, and ovarian cancers in nt943+3 A-->T MSH2 mutation carriers (n=76) for all patients and for men and women separately. For both sexes combined, the penetrances at age 60 years for all cancers and for colorectal cancer were 0.86 and 0.57, respectively. The risk of colorectal cancer was significantly higher (p<0.01) in males than females (0.63 v 0.30 and 0.84 v 0.44 at ages 50 and 60 years, respectively). For females there was a high risk of endometrial cancer (0.5 at age 60 years) and premenopausal ovarian cancer (0.2 at 50 years). These intersex differences in colorectal cancer risks have implications for screening programmes and for attempts to identify colorectal cancer susceptibility modifiers.
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PMID:A common MSH2 mutation in English and North American HNPCC families: origin, phenotypic expression, and sex specific differences in colorectal cancer. 1005 Oct 5

Defective DNA mismatch repair in human tumors leads to genome-wide instability of microsatellite repeats and a molecular phenotype referred to as microsatellite instability (MSI). MSI has been reported in a variety of cancers and is a consistent feature of tumors from patients with hereditary non-polyposis colorectal cancer. Approximately 20% of cancers of the uterine endometrium, the fifth most common cancer of women world-wide, exhibit MSI. Although the frequency of MSI is higher in endometrial cancers than in any other common malignancy, the genetic basis of MSI in these tumors has remained elusive. We investigated the role that methylation of the MLH1 DNA mismatch repair gene plays in the genesis of MSI in a large series of sporadic endometrial cancers. The MLH1 promoter was methylated in 41 of 53 (77%) MSI-positive cancers investigated. In MSI-negative tumors on the other hand, there was evidence for limited methylation in only one of 11 tumors studied. Immunohistochemical investigation of a subset of the tumors revealed that methylation of the MLH1 promoter in MSI-positive tumors was associated with loss of MLH1 expression. Immunohistochemistry proved that two MSI-positive tumors lacking MLH1 methylation failed to express the MSH2 mismatch repair gene. Both of these cancers came from women who had family and medical histories suggestive of inherited cancer susceptibility. These observations suggest that epigenetic changes in the MLH1 locus account for MSI in most cases of sporadic endometrial cancers and provide additional evidence that the MSH2 gene may contribute substantially to inherited forms of endometrial cancer.
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PMID:MLH1 promoter methylation and gene silencing is the primary cause of microsatellite instability in sporadic endometrial cancers. 1007 35


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