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)

Hereditary nonpolyposis colorectal cancer (HNPCC) is an autosomal dominant cancer syndrome characterized by early age of onset colorectal cancer (mean 45 years) as well as endometrial, urinary tract, and upper gastrointestinal adenocarcinomas. The HNPCC phenotype has been shown to segregate with germline mutations in the human homologues of the DNA mismatch repair genes MSH2, MLH1, PMS1, and PMS2. However, the majority of published DNA mismatch repair gene mutation surveys associated with HNPCC kindreds report multiple levels of preselection, including 2p and 3p chromosomal linkage analysis and the evaluation of microsatellite instability of proband colorectal cancers prior to mutation analysis. For this reason, the concise contribution of each of the known DNA mismatch repair genes to the HNPCC phenotype remains unknown. We report the results of a genomic DNA-based analysis of hMSH2 and hMLH1 germline mutations in 32 unrelated Eastern United States HNPCC kindreds. These families were selected for study on the basis of phenotype only. We identified three hMSH2 and six hMLH1 mutations in eight families, for a positive mutation rate of 25%. Two mutations were identified in one of the families. Four of the mutations detected have not been reported in the literature previously. One of the mutation-positive families is African American; the others were of European-American ancestry. These results provide a clarification of the contribution of hMSH2 and hMLH1 to the HNPCC phenotype and suggest that in the majority of Eastern United States HNPCC kindreds selected by phenotype alone, the molecular genetic basis for the disease remains unknown.
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PMID:Genomic DNA-based hMSH2 and hMLH1 mutation screening in 32 Eastern United States hereditary nonpolyposis colorectal cancer pedigrees. 928 90

The phenomenon of alternative splicing in the DNA mismatch repair genes MLH1 and MSH2 was extensively investigated by coupled reverse transcription-polymerase chain reaction in different human tissues, including 42 mononuclear blood cell samples--31 obtained from familial colon cancer patients or their at-risk relatives and 11 from healthy blood donors--7 normal colonic mucosae, 4 established human cancer cell lines, 8 colorectal tumors, and one sample each of ileum, liver, muscle, thymus, breast, and EBV-transformed lymphoblasts. Several isoforms were observed for each gene. Products of MLH1 alternative splicing included mRNAs lacking alternative exons 6/9, 9, 9/10, 9/10/11, 10/11, 12, 16, and 17. For MSH2, products lacking exons 5, 13, 2 through 7, and 2 through 8 were identified. The levels of expression were found to vary among different samples. All isoforms were found in a relevant fraction (43-100%) of the mononuclear blood cell samples, as well as in other tissues. The splicing variants were also detected in normal colonic mucosa, with the exceptions of the MLH1 -6/9 and -10/11 and the MSH2 -13 isoforms. Germline mutations of MLH1 and MSH2 confer constitutional predisposition to the development of colorectal cancer and other neoplasms. A substantial proportion of the mutations identified so far involve alterations of the normal splicing process. Knowledge of the existence of multiple alternative splicing events, not caused by genomic DNA changes, is important for the evaluation of the results of molecular diagnostic tests based on RNA analysis.
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PMID:Characterization of MLH1 and MSH2 alternative splicing and its relevance to molecular testing of colorectal cancer susceptibility. 949 Feb 93

Germline mutations in the human MSH2, MLH1, PMS2 and PMS1 DNA mismatch repair (MMR) gene homologues appear to be responsible for most cases of hereditary non-polyposis colorectal cancer (HNPCC; refs 1-5). An important role for DNA replication errors in colorectal tumorigenesis has been suggested by the finding of frequent alterations in the length of specific mononucleotide tracts within genes controlling cell growth, including TGF-beta receptor type II (ref. 6), BAX (ref. 7) and APC (ref. 8). A broader role for MMR deficiency in human tumorigenesis is implicated by microsatellite instability in a fraction of sporadic tumours, including gastric, endometrial and colorectal malignancies. To better define the role of individual MMR genes in cancer susceptibility and MMR functions, we have generated mice deficient for the murine homologues of the human genes MLH1, PMS1 and PMS2. Surprisingly, we find that these mice show different tumour susceptibilities, most notably, to intestinal adenomas and adenocarcinomas, and different mutational spectra. Our results suggest that a general increase in replication errors may not be sufficient for intestinal tumour formation and that these genes share overlapping, but not identical functions.
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PMID:Tumour susceptibility and spontaneous mutation in mice deficient in Mlh1, Pms1 and Pms2 DNA mismatch repair. 950 May 52

Genetic diagnosis of hereditary nonpolyposis colorectal cancer (HNPCC) may have a significant impact on the clinical management of patients and their at-risk relatives. At present, clinical criteria represent the simplest and most useful method for the identification of HNPCC families and for the selection of candidates for genetic testing. However, reports of mismatch repair (MMR) gene mutations in families not fulfilling the minimal diagnostic criteria point out the necessity to identify additional clinical parameters suggestive of genetic predisposition to colorectal cancer (CRC) related to MMR defects. We thus investigated a series of 32 Italian putative HNPCC individuals selected on the basis of one of the following criteria: 1) family history of CRC and/or other extracolonic tumors; 2) early-onset CRC; and 3) presence of multiple primary malignancies in the same individual. These patients were investigated for the presence of MLH1 and MSH2 mutations by single-strand conformation polymorphism analysis. Pathogenetic truncating mutations were identified in 4 (12.5%) cases, 3 of them involving MSH2 and 1 MLH1. In addition, 2 missense MLH1 variants of uncertain significance were observed. All pathogenetic mutations were associated with early age (<40 years) at onset and proximal CRC location. Our results support the contention that constitutional MMR mutations can also occur in individuals without the classical HNPCC pattern. Moreover, evaluation of the clinical parameters associated with MMR mutations indicates that early onset combined with CRC location in the proximal colon can be definitely considered suggestive of MMR-related hereditary CRC and should be included among the guidelines for referring patients for genetic testing.
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PMID:MLH1 and MSH2 constitutional mutations in colorectal cancer families not meeting the standard criteria for hereditary nonpolyposis colorectal cancer. 950 27

The role of primary genetic factors in the etiology of cancer has become of intense interest to the research and clinical community. This interest has been heightened by recent discoveries that germ-line mutations such as BRCA1 and BRCA2 in hereditary breast cancer are responsible for an increasing percentage of common solid tumors. A potpourri of proto-oncogenes and tumor-suppressor genes has been identified in hereditary as well as certain common sporadic and rare cancer types, and new cancer genes will likely be discovered every month to account for the 5 to 10% of the cases of cancer that can be attributed to primary genetic factors. Molecular mechanisms in the pathogenesis of hereditary cancer can result in more-targeted cancer-control measures. At least four mutator genes (MHS2, MLH1, PMS1 and PMS2) appear to account for 70-80% of hereditary nonpolypoid colorectal cancer (HNPCC). When one of these germ-line mutations is present in an HNPCC family, the physician is then able to determine the patient's lifetime cancer destiny with an accuracy of about 90% (limited only by the penetrance of the gene). This will enable highly targeted surveillance to be initiated early, such as colonoscopy beginning at ages 20 to 25 or prophylactic subtotal colectomy. Also, in multiple endocrine neoplasia syndromes (MEN 2A and 2B), the identification of the culprit RET proto-oncogene now enables a secure diagnosis and permits testing of children who might benefit from prophylactic total thyroidectomy. Central to translation of these momentous molecular genetic discoveries into patient care is the necessity of determining who requires DNA testing. The cancer family history is the linchpin in making this decision.
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PMID:Cancer genetics in the new era of molecular biology. 961 36

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

Hereditary non-polyposis colorectal cancer (HNPCC; OMIM 120435-6) is a cancer-susceptibility syndrome linked to inherited defects in human mismatch repair (MMR) genes. Germline missense human MLH1 (hMLH1) mutations are frequently detected in HNPCC (ref. 3), making functional characterization of mutations in hMLH1 critical to the development of genetic testing for HNPCC. Here, we describe a new method for detecting mutations in hMLH1 using a dominant mutator effect of hMLH1 cDNA expressed in Saccharomyces cerevisiae. The majority of hMLH1 missense mutations identified in HNPCC patients abolish the dominant mutator effect. Furthermore, PCR amplification of hMLH1 cDNA from mRNA from a HNPCC patient, followed by in vivo recombination into a gap expression vector, allowed detection of a heterozygous loss-of-function missense mutation in hMLH1 using this method. This functional assay offers a simple method for detecting and evaluating pathogenic mutations in hMLH1.
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PMID:Functional analysis of human MLH1 mutations in Saccharomyces cerevisiae. 969 2

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

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