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Query: UMLS:C0699790 (colon cancer)
28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Remarkable progress has been accomplished in understanding the molecular basis of genetic colon cancer syndromes including FAP and HNPCC, and their variants; of sporadic colon cancer; and of the rare hamartomatous polyp syndromes. This molecular progress now has to be translated into clinical progress in molecular diagnosis, and in pharmacologic therapy for colonic polyps and cancers. It is hoped that such progress will impact on the frequency and mortality of this very common and frequently fatal cancer.
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PMID:The molecular and genetic basis of colon cancer. 1251 Apr 61

The recognized urologic tumor spectrum in hereditary non-polyposis colon cancer includes ureteral and renal pelvis malignancies. Here, we report a family in which the proband, who had three metachronous adenocarcinomas of the colon and rectum (at ages 54, 57, and 60), presented with an adenocarcinoma of the prostate at age 61. Immunohistochemical (IHC) staining of colonic, rectal, and prostatic tumor tissues demonstrated lack of expression of both MSH2 and MSH6. Accordingly, microsatellite instability (MSI) was found in the rectal, colonic, and prostatic tumors. The kindred complies with the Amsterdam criteria for HNPCC, as five members over three generations had colorectal cancer. Molecular investigations were initiated when the proband's son presented with an adenocarcinoma of the colon at age 35. Southern blotting analysis of genomic DNA led to identification of a novel genomic deletion encompassing exon 5 of the MSH2 gene. Although prostate cancer has occasionally been described in HNPCC families, to the best of our knowledge, this is the first report where the MSI and IHC analysis of the prostatic adenomcarcinoma clearly link its aetiology to the germline mismatch repair mutation. Hence, prostate cancer should be included in the HNPCC tumor spectrum.
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PMID:Prostate cancer is part of the hereditary non-polyposis colorectal cancer (HNPCC) tumor spectrum. 1291 Apr 97

We sought to determine whether rare cancers indicate an increased risk of inherited cancer susceptibility. We ascertained 77 individuals with rare cancers which occur with increased relative risk in carriers of germline BRCA1/BRCA2 (fallopian, young-onset pancreatic) or HNPCC (biliary, small intestinal, urothelial, gallbladder, young-onset pancreatic) mutations. Individuals with two primary neoplasms (7), or with a first- or two second-degree relatives with breast/ovarian cancer were tested for BRCA1/BRCA2 mutations (18); those with two primary HNPCC cancers or one first degree relative with an HNPCC-related cancer were tested for mutations in MLH1/MSH2 (19). Of these 77 individuals with cancer (19 fallopian, 8 gallbladder, 17 biliary, 17 pancreatic, 11 urothelial, 5 small intestinal), 39 (50.6%) had at least one first degree relative with cancer (excluding lung and skin); two conformed to Bethesda HNPCC criteria. No definitely pathogenic germline MLH1 and MSH2 mutations were found in 19 individuals, although 2 MSH2 variants were detected. A family history of breast/ovarian, HNPCC or colon cancer in a first degree relative was found in 40% of fallopian, 20% of biliary, 35% of pancreatic, 27% of urothelial and 20% of small bowel cancer patients. A BRCA1 frameshift mutation was detected in a woman with fallopian (54 y) and breast (39 y) cancers, and a BRCA2 nonsense mutation in a woman with biliary (48 y) and breast (45 y) cancers. This study supports the premise that the occurrence of rare (especially double primary) cancers does indicate an increased cancer susceptibility, although the numbers of cases ascertained were too small to draw firm conclusions.
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PMID:Does the occurrence of certain rare cancers indicate an inherited cancer susceptibility? 1457 63

In addition to the well-recognized syndromes described (FAP, HNPCC) clusters of colorectal cancers occur in families much more often than would be expected by chance. This familial clustering in about 10-20% of colorectal cancers has implications for screening because the immediate family members of a patient with apparent sporadic colorectal cancer have a twofold to threefold increased risk of the disease. The magnitude of the risk depends on the age at diagnosis of the index case, the degree of kinship of the index case to the at-risk case, and the number of affected relatives. In addition to screening the easily identifiable high-risk groups such as FAP and HNPCC, care should be taken to recognize intermediate-risk patients and to provide them with appropriate screening recommendations. Because the molecular basis and the natural history of these intermediate-risk patients are largely unknown, screening recommendations are as yet more empirical. If a person has a first degree relative with colon cancer, average risk colon cancer screening is recommended, but starting at age 40 years. The decreased age is given because the risk at age 40 for those with an affected first-degree relative is similar to the risk at age 50 for the general population. An individual with two first-degree relatives affected with colon cancer or one first-degree relative diagnosed under the age of 60 y should have colonoscopy beginning at age 40, or 10 years younger than the earliest case in the family. Colonoscopy should be repeated every five years if negative. An even stronger family history of colon cancer syndromes of colon cancer should suggest the consideration of one of the inherited syndromes.
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PMID:Risk stratification for colorectal cancer and implications for screening. 1601 42

Mutations in MMR (DNA mismatch repair) genes underlie HNPCC (hereditary non-polyposis colon cancer) and also a significant proportion of sporadic colorectal cancers. MMR maintains genome stability and suppresses tumour formation by correcting DNA replication errors and by mediating an apoptotic response to DNA damage. Analysis of mouse lines with MMR missense mutations demonstrates that these MMR functions can be separated and allows the assessment of their individual roles in tumour suppression. These studies in mice indicate that, although the increased mutation rates caused by MMR defects are sufficient to drive tumorigenesis, both functions co-operate in tumour suppression.
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PMID:Functional consequences of DNA mismatch repair missense mutations in murine models and their impact on cancer predisposition. 1604 75

HNPCC (hereditary non-polyposis colon cancer) is an autosomal-dominant disorder characterized by early-onset CRC (colorectal cancer). HNPCC is most often associated with mutations in the MMR (mismatch repair) genes hMLH1, hMSH2, hMSH6 or hPMS2. The mutator phenotype of a defective MMR system is MSI (microsatellite instability), which also occurs in approx. 15-25% of sporadic CRC cases, where it is associated with the hypermethylation of the promoter region of hMLH1. Dietary factors, including excessive alcohol consumption, ingestion of red meat and low folate intake, may increase the risk of MSI high tumour development. In contrast, aspirin may suppress MSI in MMR-deficient CRC cell lines. Butyrate, a short-chain-fatty-acid end product of carbohydrate fermentation in the colon, shares a number of anti-neoplastic properties with aspirin, including inhibiting proliferation and inducing apoptosis of CRC cells. Recent in vitro studies suggest that physiological concentrations of butyrate (0.5-2 mM) may have more potent anti-neoplastic effects in CRC cell lines deficient in MMR, but mechanisms for such a differential response remain to be established.
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PMID:DNA mismatch repair status may influence anti-neoplastic effects of butyrate. 1604 86

Recent studies have estimated that the lifetime risk of endometrial cancer in women with Lynch syndrome/hereditary non-polyposis colorectal cancer syndrome (Lynch/HNPCC) is 40-60%. This risk equals or exceeds their risk for colon cancer. While much research has been done to define the natural history and molecular features of Lynch/HNPCC associated colon cancer, there has been considerably less research defining Lynch/HNPCC associated endometrial cancer. This article will review current information regarding the clinico-pathologic features of Lynch/HNPCC associated endometrial cancer. In addition, current consensus guidelines for endometrial cancer screening and prevention for women with Lynch/HNPCC will be discussed. Given the increased risk of multiple cancers, changing the name of this syndrome from hereditary non-polyposis colorectal cancer syndrome to Lynch Syndrome may benefit both patients and clinicians. Clinicians caring for women with Lynch/HNPCC may stress colon cancer screening and prevention without reviewing endometrial cancer risks and symptoms or screening and prevention options. Perhaps more importantly, women with Lynch/HNPCC may focus on colon cancer risks and lack understanding of endometrial cancer risks. With increasing evidence that women with Lynch/HNPCC have significant risks for both colon and endometrial cancers, we believe a multi-disciplinary approach to the management of these individuals is crucial.
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PMID:Gynecologic Cancers in Lynch Syndrome/HNPCC. 1613 86

The breast, ovary and endometrial cancers are hereditary in 5 to 10% of the cases. These genetic predisposition syndromes can be classified into two major classes: ovarian cancer and breast cancer predisposition family cases (genes BRCA1 and BRCA2) and family cases of colon cancer, endometrial cancer and ovarian cancer (Lynch syndrome or HNPCC) (genes hMLH1, hMSH2, hMLH6). The estimate of the family and individual risk can contribute in a determining manner to the management of these patients, by the practice of screening or an adapted prevention. Indeed, the risk of cancer of an individual having a positive test for a gene of predisposition to breast cancer (BRCA1, BRCA2) or to the colon cancer (hMLH1, hMSH2, hMLH6) lies between 50 and 70% at the age of 70 years. The indication of a genetic test must be discussed within the framework of an oncogenetic consultation. An individual and family medical management ranging from simple monitoring to prophylactic surgery is proposed to these predisposed people.
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PMID:[Hereditary predispositions to gynaecological cancers]. 1663 Jul 43

The evolutionary conserved mismatch repair proteins correct a wide range of DNA replication errors. Their importance as guardians of genetic integrity is reflected by the tremendous decrease of replication fidelity (two to three orders of magnitude) conferred by their loss. Germline mutations in mismatch repair genes, predominantly MSH2 and MLH1, have been found to underlie the Lynch syndrome (also called hereditary non-polyposis colorectal cancer, HNPCC), a hereditary predisposition for cancer. Lynch syndrome affects predominantly the colon and accounts for 2-5% of all colon cancer cases. During more than 30 years of biochemical, crystallographic and clinical research, deep insight has been achieved in the function of mismatch repair and the diseases that are associated with its loss. We review the biochemistry of mismatch repair and also introduce the clinical, diagnostic and genetic aspects of Lynch syndrome.
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PMID:DNA mismatch repair and Lynch syndrome. 1682 Oct 93

Norwegian health care for persons at risk for inherited colorectal cancer is regulated by national legislation on the use of predictive genetic testing and conforms with the international guidelines. This paper from the Norwegian Group on Inherited Cancer, is a consensus between all medical genetic institutions in Norway who handle hereditary colorectal cancer. The recommendations take locally available technology and health care resources into account and are realistic with regard to what can be done within the structure of the Norwegian health service. It gives an update of known genetic syndromes, including colorectal cancer, and indications for remitting patients to genetic examinations. The medical health care is detailed for each genetic group and includes prophylactic surgery and follow-up aimed at early diagnosis and treatment according to international standards. Genetic examinations include a thorough family history verified by medical files for all affected relatives, and comprehensive genetic testing for known syndromes in question. For hereditary colon cancer syndrome (HNPCC), the approach is to screen one tumour in a family member who is an obligate carrier with immunohistochemistry for lack of mismatch gene products, and --if found--proceed to full mutation analysis of the corresponding gene. The clinical geneticists are responsible for coordinating health services to those in need. They also have an obligation to collaborate to present the empirical results of the interventions made.
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PMID:[Handling of hereditary intestinal cancer]. 1691 19

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