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:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fascinating progress has been made in the past 2 years in our understanding of the genetic alterations associated with colorectal cancer predisposition and development. First, the genotype-phenotype relationship of the cancer susceptibility syndrome associated with familial adenomatous polyposis has been shown to depend on mutation type. Second, hereditary nonpolyposis colorectal cancer syndromes have been recognized as being frequently associated with a defect in the DNA mismatch-repair pathway. A gene on chromosome 2 called hMSH2, which demonstrates homology with the bacterial repair gene MutS, has been shown to be altered in some families with hereditary nonpolyposis colorectal cancer. A defect on chromosome 3 may act by impairing the same pathway. Genotyping of particular loci, termed microsatellite, provides an easy identification of tumors deficient in mismatch repair. Third, the mechanisms by which the inactivation of tumor-suppressor genes such as p53 and APC may contribute to the tumorigenic process have begun to be elucidated. These different discoveries will have important impacts in the prevention and management of colorectal carcinoma, one of the most frequent human cancers.
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PMID:Advances in the genetics and molecular biology of colorectal tumors. 780 42

Hereditary predisposition to colorectal cancer assumes two well-defined forms: familial adenomatous polyposis and hereditary nonpolyposis colon cancer. These tumors segregate as autosomal dominant conditions whose penetrance increases with age; cancer is expected to develop ultimately in as much as 50% of the offspring of affected individuals. These traits account for less than 1% and approximately 5% of all colorectal cancer, respectively. In addition, first-degree relatives of patients with common (sporadic) colorectal neoplasia are at increased risk of colorectal cancer. This relative risk averages approximately twofold but is significantly higher for relatives of younger patients (age at diagnosis, < 55 years). Familial adenomatous polyposis and a major subset of hereditary nonpolyposis colon cancer are due to loss-of-function germline mutations of genes located on chromosomes 5q and 2p, respectively. Both of these genes have been cloned recently. The gene affected in familial polyposis, APC, encodes a protein of unknown function that normally is found on the surface of maturing cells in the upper colonic crypts. The relevant gene in many hereditary nonpolyposis colon cancer kindreds is hMSH2. This gene encodes the human homologue of a bacterial protein MutS, which is part of a system known to repair base mismatches in newly replicated DNA. Loss of hMSH2 function may explain the strikingly erroneous replication of short DNA repeats (microsatellites) in colon tumors from patients with hereditary nonpolyposis colon cancer. Because this error-prone replication is found in approximately 13% of nonfamilial colon cancers, defective mismatch repair may contribute to the development of both hereditary and sporadic colon neoplasia. Molecular genetic assays to detect mutated alleles of these genes will facilitate presymptomatic identification of carriers in families with familial polyposis and hereditary nonpolyposis colon cancer. Current recommendations for surveillance of family members are presented in the light of the new genetic understanding of these diseases.
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PMID:Southwestern internal medicine conference: hereditary predisposition to colorectal cancer: new insights. 797 49

Colon carcinomas appear to arise from the cumulative effect of mutations to several genes (APC, DCC, p53, ras, hMLH1, and hMSH2). By using novel colonic epithelial cell lines derived from the Immorto mouse, named the YAMC (young adult mouse colon) cell line, and an Immorto-Min mouse hybrid, named the IMCE (Immorto-Min colonic epithelial) cell line, carrying the Apc min mutation, we investigated the effect of an activated v-Ha-ras gene on tumor progression. The YAMC and IMCE cell lines are normal colonic epithelial cell lines which are conditionally immortalized by virtue of expression of a temperature-sensitive simian virus 40 (SV40) large T antigen. Under conditions which permit expression of a functional SV40 large T antigen (33 degrees C plus gamma interferon), neither the YAMC nor the IMCE cell line grows in soft agar or is tumorigenic in nude mice. In vitro, when the SV40 large T antigen is inactivated (39 degrees C without gamma interferon), the cells stop proliferating and die. By infecting the YAMC and IMCE cell lines with a replication-defective psi2-v-Ha-ras virus, we derived cell lines which overexpress the v-Ha-ras gene (YAMC-Ras and IMCE-Ras). In contrast to the parental cell lines, under conditions in which the SV40 large T antigen is inactive, both the YAMC-Ras and IMCE-Ras cell lines continue to proliferate. Initally YAMC-Ras cells do not form tumors; however, tumors are visible after 90 days of incubation. IMCE-Ras cells form colonies in soft agar under both permissive and nonpermissive culture conditions. Furthermore, IMCE-Ras cells form tumors in nude mice within 3 weeks. The phenotype of the IMCE-Ras cell line thus clearly demonstrates that a defective Apc allele and an activated ras gene are sufficient to transform normal colonic epithelial cells and render them tumorigenic.
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PMID:Synergy between Apc min and an activated ras mutation is sufficient to induce colon carcinomas. 862 90

Colorectal cancer (CRC) has a strong familial component. Candidate genes for colorectal cancer have been identified through mutations in four mismatch repair genes (hMSH2, hMLH1, hPMS1, and hPMS2) and genes that are deleted or mutated in tumors (DCC, APC, and p53). Linkage analysis of candidate loci/regions was performed in 10 kindreds ascertained for common colorectal cancer from the Utah Population Database. Evidence for linkage to candidate genes was assessed using two- or three-point logarithm of the odds ratio scores with markers spanning the region of localization. One kindred is linked to hMSH2 and also fits the criteria for hereditary nonpolyposis colorectal cancer, having early age of onset and high penetrance for CRC. The remaining nine kindreds are unlinked to the candidate genes tested. These kindreds have a later age of onset and a lower penetrance than hereditary nonpolyposis colorectal cancer kindreds. these results indicate that further unmapped susceptibility loci may be responsible for much of the familial aggregation of CRC.
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PMID:Genetic heterogeneity and unmapped genes for colorectal cancer. 864 Aug 29

Though colorectal tumorigenesis has long been thought to be a multistep mechanisms, recently has it become possible to identify the molecular events that underlie the initiation and progression of colorectal carcinoma. Though the analysis of mutations in colorectal tumors at various stages of their development allows definition of a model for colorectal tumorigenesis, because the progression is the result of a series of genetic changes that accumulate activation of oncogene (K-ras), inactivation of tumor-suppressor gene (two-hit mutation of APC, Pla2s, p53, suppressor gene on chromosome 8p22 locus, NF2 and DCC) and mismatch repair gene (hMSH2, hMLH1 hPMS family and TGF beta II receptor linked DNA repair). These accumulation of genetic alterations contribute to tumor development and/or progression in primary colorectal carcinoma.
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PMID:[Genetic steps in colorectal cancer]. 892 Jun 76

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

Turcot's syndrome is characterized clinically by the occurrence of primary brain tumor and colorectal tumor and has in previous reports been shown to be associated with germline mutations in the genes APC, hMLH1, and hPMS2. Here we describe three patients with Turcot's syndrome, each having colorectal adenocarcinoma and malignant glioma. All the colorectal and brain tumors from these patients showed replication errors in most of the microsatellite loci investigated. Search for underlying germline mutations in the nucleotide mismatch repair genes revealed three different hMSH2 mutations. All colorectal tumors showed a frameshift in the A(10) tract in the coding sequence of the transforming growth factor beta type II receptor (TGFBRII) gene, but no such change was detected in any of the brain tumors. Frameshift mutation in the BAX gene was found in one colon carcinoma and mutations in insulin-like growth factor type II receptor (IGFIIR) gene in one glioma. Our data have broadened the possible mutation spectrum of patients with Turcot's syndrome. The difference in the mutation spectrum of TGFBRII, BAX, and IGFIIR between brain and colorectal tumors in these individuals suggests that the mutator phenotype may target different pathogenic pathways in the oncogenic process of the two organs.
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PMID:Germline hMSH2 and differential somatic mutations in patients with Turcot's syndrome. 1033 89

In this article, we describe the characteristics of 12 human colorectal-carcinoma cell lines established from 6 primary tumors and 6 metastatic sites of 11 Korean colorectal-carcinoma patients, including the morphology in vivo and in vitro and mutations of K-ras2, p15, p16, p53, APC, beta-catenin, hMLH1 and hMSH2 genes in vitro. No lines were contaminated with Mycoplasma or bacteria. All lines were proven to be unique by DNA-fingerprinting analysis. All lines expressed the surface carcino-embryonic antigen and secreted it into the supernatant fluid. The morphological correlation between the original tumors and cultured cells suggested that the original tumors showing mucinous adenocarcinoma correlated with floating aggregates in culture, and degree of desmoplasia in the original tumor correlated with attached growth in culture. Five of the cell lines showed mutations in the K-ras2 gene, and 6 of the cell lines showed mutations in the p53 gene. The p15 gene was deleted in 2 cell lines, and the p16 gene was hypermethylated in 3 cell lines. The mutation of mismatch-repair genes (hMLH1 and hMSH2) was found in 4 lines, the APC gene and beta-catenin gene were mutated in 9 and 2 lines respectively. These well-characterized colorectal-cancer cell lines should serve as useful tools for investigating the biological characteristics of colorectal cancer.
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PMID:Establishment and characterization of 12 human colorectal-carcinoma cell lines. 1036 37

Familial cancers associated with genetic background are of the most intensively investigated diseases in recent years. The phenotype is apparent with most of these diseases and can easily be traced through family history. Induction in familial cancer appears, on current evidence, to be not different from that observed in sporadic cancer. The first suppressor gene Rb gene was cloned from retinoblastoma. There are two representative hereditary colorectal cancers: familial adenomatous polyposis (FAP) and hereditary non-polyposis colorectal cancer (HNPCC). The gene responsible for FAP (APC gene) was cloned in 1991. The APC gene is a negative regulator of beta-catenin and is considered to play the role of gatekeeper in the adenoma carcinoma sequence. Thereafter a group of genes, human homologues of mismatch repair genes (hMSH2, hMLH1, hPMS1, hPMS2, hMSH6), have been identified as the genes responsible for HNPCC. These are called care taker genes, which serve to maintain genetic stability. Therefore, if one of those genes undergoes mutation, the rate of mutation increases significantly. It has only been in the last 20 years that familial cancer has become an important issue. In association with such advances, predictive testing can now be performed on at risk persons. Persons at risk can thus be accurately counseled and screened for early detection of disease.
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PMID:[Familial cancer: recent advances]. 1041 Jan 40

Hereditary non-polyposis colorectal cancer (HNPCC) is characterized by familial clustering and early onset. It is unclear, however, whether the early onset of colorectal cancer necessarily represents HNPCC. A 13-year-old patient had rectal cancer and underwent curative surgery. DNA from this patient was examined for replication errors (RER) and genes related to familial colorectal cancer (APC, hMSH2, and hMLH1). The patient had a negative family history of colorectal cancer, did not show the RER phenotype, and had no germline mutation of the APC, hMSH2, and hMLH1 genes. The present case suggests that an unusually young patient with colorectal cancer is not always an HNPCC proband. Observation over time, however, will be needed, as a first mutator of familial colorectal cancer could be missed.
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PMID:Rectal cancer in a 13-year-old boy without a detectable germline mutation in FAP and HNPCC genes. 1043 9


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