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:C0476089 (endometrial cancer)
11,379 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endometrial carcinoma is the second most common tumor type in women with hereditary nonpolyposis colorectal carcinoma. Microsatellite instability (MI) has been observed in the inherited (hereditary nonpolyposis colorectal carcinoma-associated) form of endometrial carcinoma as well as in approximately 20% of presumably sporadic cases. Recent studies suggest that MI in many cell lines or xenografts derived from sporadic colorectal carcinomas is not attributable to mutations in four known human DNA mismatch repair (MMR) genes (hMSH2, hMLH1, hPMS1, and hPMS2). Mutational analyses of these four MMR genes in endometrial carcinomas have not been previously reported. We analyzed nine sporadic MI-positive primary endometrial carcinomas for mutations in the above four MMR genes. Mutations were detected in two tumors (in hMSH2), and both of the mutations were acquired somatically. Immunohistochemical staining revealed a lack of expression of hMSH2 protein in the two tumors containing hMSH2 mutations. Our data suggest that mutations in these four known DNA MMR genes are not responsible for MI in the majority of sporadic endometrial carcinomas displaying this phenotype.
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PMID:Mutations in DNA mismatch repair genes are not responsible for microsatellite instability in most sporadic endometrial carcinomas. 758 34

A replication error (RER+) phenotype, characterized by somatic instability in simple repeated sequences, is associated with several types of cancer. To determine if a defect in DNA replication fidelity or repair of replication errors might explain this instability, we compared both processes in cell-free extracts from RER+ endometrial and colorectal cancer cell lines to RER- cell lines. SV40 origin-dependent replication of a microsatellite sequence is highly accurate in cell extracts regardless of their RER phenotype. However, extracts from RER+ cell lines are defective in mismatch repair, while extracts of RER- cell lines are not. Lack of repair was observed when the signal (a nick) for strand-specific repair was either 3' or 5' to the mispair. One colorectal cancer cell line contained deletions in both alleles of the putative mismatch repair gene hMSH2, and one endometrial cancer cell line contained a 4-base pair duplication in one hMSH2 allele. No hMSH2 mutation was detected in the other allele or in the other five RER+ cell lines. Repair was readily detected when each of the defective extracts was mixed with a repair-proficient extract, demonstrating that no trans-acting inhibitor is present. Attempts to complement the repair deficiencies by mixing two different defective extracts identified three combinations that restored repair. The data suggest that: (i) defective repair is associated with colorectal and endometrial cancer and, by extrapolation, with other types of cancer; (ii) mutations in the hMSH2 gene, and possibly other genes, result in defective mismatch repair; (iii) the defect(s) in these lines likely involves pre-incision events or the excision step, but not the incision, polymerization, or ligation steps; and (iv) at least four functional complementation groups for mismatch repair may be involved in human cancer.
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PMID:Defective mismatch repair in extracts of colorectal and endometrial cancer cell lines exhibiting microsatellite instability. 818 40

Hereditary nonpolyposis colon cancer (HNPCC) is an autosomal dominant trait responsible for approximately 6% of colorectal cancers. Linkage of the HNPCC trait to the D2S123 locus on 2p15-16 has previously been reported in two families. This HNPCC locus is now designated "COCA1." We have tested seven Canadian HNPCC families, who have a variety of clinical presentations, for linkage to a panel of microsatellite polymorphisms in the vicinity of D2S123. One family was clearly linked to the COCA1 locus (LOD = 4.21), and a second family is likely to be linked (LOD = 0.92). In three families linkage was excluded. In the remaining two families the data were inconclusive. In the linked family, individuals with cancer of the endometrium or ureter share a common haplotype with 12 family members with colorectal cancer. This supports the suspected association between these extracolonic neoplasms and the HNPCC syndrome. In addition, five of the six individuals with adenomatous polyps (but no colorectal cancer) have the same haplotype as the affected individuals, while the sixth carries a recombination. One individual with colorectal cancer carries a recombination that places the COCA1 locus telomeric to D2S123. This study localizes the COCA1 gene to an 8-cM region that is consistent with the location of the hMSH2 gene. We also confirm that families presently classified as HNPCC are genetically heterogeneous.
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PMID:Hereditary nonpolyposis colon cancer: analysis of linkage to 2p15-16 places the COCA1 locus telomeric to D2S123 and reveals genetic heterogeneity in seven Canadian families. 819 29

Microsatellite instability, monitored by replication error (RER), has been observed in both sporadic and hereditary types of endometrial carcinoma. In the hereditary tumors, this instability is considered to be caused by a germline defect in the DNA mismatch-repair system. We previously reported that nearly one-quarter of sporadic endometrial carcinomas examined revealed an RER-positive phenotype at multiple microsatellite loci. To investigate the role of genetic alterations of DNA mismatch-repair genes in sporadic endometrial carcinomas, we screened 18 RER(+) endometrial carcinomas for mutations of hMLH1 and hMSH2. Although we found no germline mutations, we detected two somatic mutations of hMLH1 in a single endometrial cancer; these two mutations had occurred on different alleles, suggesting that two separate mutational events had affected both copies of hMLH1 in this particular tumor. These data implied that mutations of hMLH1 or hMSH2 play limited roles in the development of sporadic endometrial carcinomas, and that the tumors with genetic instability might have alterations of other mismatch-repair genes, such as hPMS1 and hPMS2, or of unknown genes related to the mismatch-repair system.
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PMID:Mutational analysis of mismatch repair genes, hMLH1 and hMSH2, in sporadic endometrial carcinomas with microsatellite instability. 860 62

Selection of cells for resistance to cisplatin, a well-recognized mutagen, could result in mutations in genes involved in DNA mismatch repair and thereby to resistance to DNA-alkylating agents. Parental cells of the human ovarian adenocarcinoma cell line 2008 expressed hMLH1 when analyzed with immunoblot. One subline selected for resistance to cisplatin (2008/A) expressed no hMLH1, whereas another (2008/C13*5.25) expressed parental levels. Microsatellite instability was readily demonstrated in 2008/A cells but not in 2008 and in 2008/C13*5.25 cells. In addition, the 2008/A cells were 2-fold resistant to methyl-nitro-nitrosoguanidine and had a 65-fold elevated mutation rate at the HPRT locus as compared to 2008 cells, both of which are consistent with the loss of DNA mismatch repair in these cells. To determine whether the loss of DNA mismatch repair itself contributes to cisplatin resistance, studies were carried out in isogenic pairs of cell lines proficient or defective in this function. HCT116, a human colon cancer cell line deficient in hMLH1 function, was 2-fold resistant to cisplatin when compared to a subline complemented with chromosome 3 and expressing hMLH1. Similarly, the human endometrial cancer cell line HEC59, which expresses no hMSH2, was 2-fold resistant to cisplatin when compared to a subline complemented with chromosome 2 that expresses hMSH2. Therefore, the selection of cells for resistance to cisplatin can result in the loss of DNA mismatch repair, and loss of DNA mismatch repair in turn contributes to resistance to cisplatin.
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PMID:Loss of DNA mismatch repair in acquired resistance to cisplatin. 867 66

Hereditary non-polyposis colorectal cancer (HNPCC) is characterised by a genetic predisposition to develop colorectal cancer at an early age and, to a lesser degree, cancer of the endometrium, ovaries, urinary tract, and organs of the gastrointestinal tract other than the colon. In the majority of families the disease is linked to mutations in one of the two mismatch repair genes, hMSH2 or hMLH1. We have found a novel hMLH1 nonsense mutation in a Swiss family with Lynch syndrome, which has been transmitted through at least nine generations. A different tumour spectrum of neoplasms of the skin, soft palate, breast, duodenum, and pancreas was observed in three branches of this family, where there was a virtual absence of colonic tumours. The hMLH1 mutation could not be detected in members of these branches suggesting that at least a second genetic defect predisposing to cancer is segregating in part of the kindred.
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PMID:Complex genetic predisposition to cancer in an extended HNPCC family with an ancestral hMLH1 mutation. 886 53

Loss of DNA mismatch repair occurs in many types of tumors. The effect of the loss of DNA mismatch repair activity on sensitivity to cisplatin and a panel of analogues was tested using two pairs of cell lines proficient or deficient in this function. HCT116+ch2, a human colon cancer cell line deficient in hMLH1, was 2.1-fold resistant to cisplatin and 1.3-fold resistant to carboplatin when compared to a subline complemented with chromosome 3 expressing a wild-type copy of hMLH1. Likewise, the human endometrial cancer cell line HEC59, which is deficient in hMSH2, was 1.8-fold resistant to cisplatin and 1.5-fold resistant to carboplatin when compared to a subline complemented with chromosome 2 with a wild-type hMSH2. In contrast to cisplatin and carboplatin, which form the same types of adducts in DNA, there was no difference in sensitivity between the DNA mismatch repair-proficient and -deficient cell lines for oxaliplatin, tetraplatin, transplatin, JM335, or JM216. The formation of protein-DNA complexes that contained hMSH2 and hMLH1 was documented by mobility shift assay when nuclear extracts were incubated with DNA platinated with cisplatin but not with oxaliplatin. These results demonstrate a correlation between failure of the DNA mismatch repair proteins to recognize the platinum adduct and low-level resistance, suggesting a role for the DNA mismatch repair system in generating signals that contribute to the generation of apoptotic activity. They also identify the use of drugs whose adducts are not recognized as a strategy for circumventing resistance due to loss of DNA mismatch repair.
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PMID:The role of DNA mismatch repair in platinum drug resistance. 889 38

Hereditary nonpolyposis colorectal cancer (HNPCC), also termed Lynch syndrome, was originally called cancer family syndrome. Historically, in 1913 Aldred Warthin, a pathologist, published a family, now known as Family G, which had features of HNPCC. It was first delineated as a hereditary cancer syndrome in the mid-1960s by Lynch. There was an apparent autosomal dominant mode of inheritance of colorectal cancer and certain integral cancers, the most prominent of which was endometrial carcinoma. Prior to the discovery in 1993 and 1994 of genes (hMSH2, hMLH1, hPMS1, hPMS2) known as mis-match repair genes or mutator genes, the diagnosis of HNPCC rested exclusively upon evaluation of clinical findings in concert with a well-documented and extended pedigree. Thus, this disorder has evolved from a medical curiosity into a clinical syndrome wherein molecular biologists provided proof of its hereditary status. These discoveries should aid in elucidating its pathogenesis and carcinogenesis and in the next decade we likely will learn more about chemoprevention and surgical prophylaxis of HNPCC.
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PMID:Molecular genetics and clinical-pathology features of hereditary nonpolyposis colorectal carcinoma (Lynch syndrome): historical journey from pedigree anecdote to molecular genetic confirmation. 949 83

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

We screened for germline mutations of mismatch repair genes, hMLH1 and hMSH2, in five Japanese families carrying hereditary nonpolyposis colorectal cancer (HNPCC) and in a patient with multiple primary cancers. Screening the entire coding regions of both genes using polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) analysis, we found two novel germline mutations in hMSH2. One was a 1-bp insertion in exon 12, detected in a patient who had undergone surgery six times for independent tumors (four primary colorectal carcinomas, a small intestinal carcinoma, and an endometrial cancer). The other, in a second patient, was a missense mutation from CTT to TTT at codon 390 in exon 7 that resulted in substitution of phenylalanine for leucine. This conservative alteration was not found in any of 50 normal controls, but we cannot exclude the possibility that it may represent a rare polymorphism rather than a factor in the disease.
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PMID:Novel germline mutations of hMSH2 in a patient with hereditary nonpolyposis colorectal cancer (HNPCC) and in a patient with six primary cancers. 962 22


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