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)

We have determined the frequency and spectrum of spontaneous mutations at the hprt locus in LoVo, HCT116, LS180 and DLD-1 colon carcinoma cell lines exhibiting microsatellite genetic instability. Each cell line has a different mutator gene. LoVo and HCT116 cells have mutated hMSH2 and hMLH1 genes, respectively, which account for the majority of hereditary non-polyposis colorectal cancer (HNPCC). LS180 cells are wild type for these genes and also for hPMS1 and hPMS2 mismatch repair genes. DLD-1 cells harbor a mutated GTBP mismatch binding factor and a mutated DNA Polymerase delta. The mutation rate at the hprt locus was several hundred fold higher in these cell lines relative to control cell lines without microsatellite instability. The mutations were frameshifts (deletions and insertions of a single nucleotide in short repeats) and single base substitutions (transversions and transitions). Some mutations were shared by these four cell lines. However, every cell line also exhibited a distinctive spectrum of mutations suggesting that each mutator gene induces a particular mutator phenotype. These results also suggest that the frequency and spectrum of somatic mutations in tumor cells of the microsatellite mutator phenotype may have diagnostic applications to discriminate among the diverse underlying mutator genes.
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PMID:Differences in the spectrum of spontaneous mutations in the hprt gene between tumor cells of the microsatellite mutator phenotype. 864 58

In human cells, mismatch recognition is mediated by a heterodimeric complex, hMutSalpha, comprised of two members of the MutS homolog (MSH) family of proteins, hMSH2 and GTBP [1,2]. Correspondingly, tumour-derived cell lines defective in hMSH2 and GTBP have a mutator phenotype [3,4], and extracts prepared from these cells lack mismatch-binding activity [1]. However, although hMSH2 mutant cell lines showed considerable microsatellite instability in tracts of mononucleotide and dinucleotide repeats [4,5], only mononucleotide repeats were somewhat unstable in GTBP mutants [4,6]. These findings, together with data showing that extracts of cells lacking GTBP are partially proficient in the repair of two-nucleotide loops [2], suggested that loop repair can be GTBP-independent. We show here that hMSH2 can also heterodimerize with a third human MSH family member, hMSH3, and that this complex, hMutSbeta, binds loops of one to four extrahelical bases. Our data further suggest that hMSH3 and GTBP are redundant in loop repair, and help explain why only mutations in hMSH2, and not in GTBP or hMSH3, segregate with hereditary non-polyposis colorectal cancer (HNPCC) [7].
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PMID:hMutSbeta, a heterodimer of hMSH2 and hMSH3, binds to insertion/deletion loops in DNA. 880 65

Defects in mismatch repair genes cause the genetic instability characteristic of hereditary nonpolyposis colorectal cancer and a subset of sporadic colon tumors. The newest member of the mismatch repair gene family, GTBP, has recently been identified as a partial cDNA. Here, we describe the isolation of its 5' terminus, allowing definition of the entire coding region. Several polymorphisms within the 5' end were identified and are presented.
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PMID:Molecular cloning of the N-terminus of GTBP. 883 26

A common form of human malignancy, hereditary non-polyposis colorectal cancer (HNPCC), as well as some sporadic human cancers, has been shown to exhibit frequent alterations in microsatellite sequences. This phenotype was ascribed to a defect in replication error correction, and indeed several tumour derived cell lines are deficient in mismatch repair. To date, four HNPCC loci, on chromosomes 2p, 2q, 3p and 7q, have been linked with genes designated hMSH2, hPMS1, hMLH1 and hPMS2, respectively, which encode proteins that display an extensive degree of sequence similarity to polypeptides involved in postreplicative mismatch correction in Escherichia coli and Saccharomyces cerevisiae. We have recently identified a new protein, GTBP, that is essential for mismatch repair in human cells. GTBP mutations are not associated with the profound MI commonly encountered in hereditary colon cancers. The roles of the proteins encoded by the individual mismatch repair genes in postreplicative mismatch correction and genome instability are discussed, with a view to assessing the potential utility of these findings in diagnosis of cancer predisposition and therapy.
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PMID:Mismatch repair and cancer. 897 28

Fourteen Italian families affected with hereditary nonpolyposis colorectal cancer (HNPCC) were screened for germline mutations at three DNA mismatch repair (MMR) genes, MSH2, MLHI, and GTBP, by using a combination of different methods that included an in vitro synthesized protein assay, single-strand conformation polymorphism analysis, and direct sequencing. DNA alterations were observed in six instances, including a single base deletion in MSH2 exon 14, an A-to-G transition in the splice donor site of MLHI exon 6, and two missense mutations in MLHI exons 5 and 9. A previously reported common mutation affecting the splice donor site of MSH2 exon 5 was identified in two families. No mutations were detected in the GTBP gene. In total, eight of 16 Italian HNPCC families (50%), including two previously reported kindreds, were found to carry a mutation in MMR genes. We compared the mean age of colorectal cancer onset in the index cases (three patients for each family) between the two groups of kindreds, those with identified mutation vs. those without, and found that the first had a significantly lower value (43.0 vs. 53.7 years, P = 0.014). This finding suggests that HNPCC families with a more advanced age of tumor onset are less likely to be associated with known MMR genes.
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PMID:Mean age of tumor onset in hereditary nonpolyposis colorectal cancer (HNPCC) families correlates with the presence of mutations in DNA mismatch repair genes. 921 93

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

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

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

Neuroblastoma is a pediatric malignancy of the sympathetic nervous system and is frequently characterized by genetic aberrations (including aneuploidy, chromosomal deletions, translocations, and gene amplification) that suggest inherent genomic instability. Mutations in mismatch repair (MMR) genes have been associated with genomic instability in several human cancers, such as those of the hereditary nonpolyposis colorectal cancer (HNPCC) syndrome. In these cases, replication errors at microsatellite repeats lead to microsatellite instability (MSI) and mutagenesis. In neuroblastoma, we and others have detected MSI infrequently when analyzed at di- or tetranucleotide repeat polymorphic markers. More recently, however, mutations in the MMR gene GTBP/hMSH6 have been associated with a limited phenotype of instability at mononucleotide repeats only (e.g., polyadenine tracts). Furthermore, mononucleotide repeats appear to be common downstream targets of MSI-related mutagenesis and are present in the transforming growth factor-beta receptor-II gene (TGF beta RII), the BAX proapoptosis gene, and the insulin-like growth factor II receptor gene (IGFIIR) frequently in tumors arising in HNPCC kindreds. Therefore, we analyzed 46 matched normal and tumor DNAs representing all clinical stages of neuroblastoma with the use of five polymorphic mononucleotide repeat markers to assess for MSI at mononucleotide repeats. Only one tumor (2%) demonstrated mononucleotide repeat instability, and the instability was at a single locus. We conclude that MSI, including mononucleotide repeat instability, is infrequent in human neuroblastoma, and therefore defects in DNA mismatch repair are not responsible for the genomic instability seen in this neoplasm.
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PMID:Mononucleotide repeat instability is infrequent in neuroblastoma. 979 79

Hereditary nonpolyposis colorectal cancer (HNPCC) is a syndrome characterized by familial predisposition to colorectal carcinoma and extracolonic cancers of the gastrointestinal, urological, and female reproductive tracts. This dominant disorder is caused by germline defects in one of at least five DNA mismatch repair (MMR) genes: hMLH1, hMSH2, hPMS1, hPMS2, and hMSH6 (GTBP). Germline mutations of hMSH2 and hMLH1 are also frequently identified in families not fulfilling all the Amsterdam criteria, thereby demonstrating that the involvement of these genes is not confined to typical HNPCC. To evaluate the respective involvement of the various MMR genes in typical and incomplete HNPCC syndromes, we have performed an analysis of the hMLH1, hMSH2, hPMS1, hPMS2, and hMSH6 genes in a large series of French kindreds (n=75) with colorectal tumors and/or aggregation of extracolonic cancers belonging to the HNPCC spectrum. Mutational analysis has been performed in all families, without preselection for the tumor phenotype. We have detected 26 pathogenic germline mutations of the hMLH1 and hMSH2 genes and several novel variants of the hPMS1, hPMS2, and hMSH6 genes. Our data confirm that, regardless of the type of families and the tumor phenotype, hPMS1, hPMS2, and hMSH6 germline mutations are rare in familial aggregation of colorectal cancers. Furthermore, they suggest that the presence of multiple primary malignancies in a single individual and the observation of extracolonic tumors in relatives of a colorectal cancer patient should be included among the guidelines for referring patients for genetic testing.
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PMID:Prevalence of germline mutations of hMLH1, hMSH2, hPMS1, hPMS2, and hMSH6 genes in 75 French kindreds with nonpolyposis colorectal cancer. 1048 Mar 59


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