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)

Numerous molecular genetic events occurring in the development of sporadic colorectal neoplasia have been previously defined. The most frequent genetic alterations are mutations of the APC, KRAS, and TP53 genes, as well as loss of the DCC gene and of the second TP53 allele. The data from several groups indicate that these genes play an important role in ulcerative colitis-associated dysplasias and cancer, as they do in sporadic colorectal adenomas and carcinomas. KRAS and TP53 mutations were detected in dysplasia, but also in villous regeneration and active colitis, and affect a subpopulation of the cells composing these lesions. We conclude that in histologically defined dysplasia, clones can be found that genetically represent precancerous lesions in ulcerative colitis. Seen in this way, part of the active colitis and villous regeneration lesions might be considered as preneoplastic. When present, KRAS mutation is an excellent genetic marker to map populations of preneoplastic cells.
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PMID:Molecular genetics of dysplasia in ulcerative colitis. 757 15

A predisposition to colorectal cancer is shown to be linked to markers on chromosome 2 in some families. Molecular features of "familial" cancers were compared with those of sporadic colon cancers. Neither the familial nor sporadic cancers showed loss of heterozygosity for chromosome 2 markers, and the incidence of mutations in KRAS, P53, and APC was similar in the two groups of tumors. Most of the familial cancers, however, had widespread alterations in short repeated DNA sequences, suggesting that numerous replication errors had occurred during tumor development. Thirteen percent of sporadic cancers had identical abnormalities and these cancers shared biologic properties with the familial cases. These data suggest a mechanism for familial tumorigenesis different from that mediated by classic tumor suppressor genes.
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PMID:Clues to the pathogenesis of familial colorectal cancer. 848 15

Somatically acquired mutations in several genes have been reported as playing an important role during colorectal tumorigenesis. Two alternative groups of carcinomas, termed LOH+ and RER+, have been defined on the basis of their genetic anomalies, a biallelic inactivation of the APC or the TGF-betaRII genes, occurring as an alternative, in LOH+ or RER+ tumors. It is a generally accepted hypothesis that most of colorectal cancers (CRC) develop from a pre-existing adenomatous polyp. Such benign lesions are usually exophytic polyps, a small proportion of adenomas having been described as flat lesions. The latter histological category has thus been proposed to bear specific genetic alterations. In order to examine this hypothesis, we have characterized a series of 44 flat colorectal neoplasias for their RER status and for somatic APC, KRAS and TGF-betaRII genes mutations. Flat colorectal neoplasias were found to be of the RER+ subtype in 22% of cases, all of them exhibiting a TGF-betaRII mutation. A mutation of the APC and KRAS genes has been found in 42% and 4% of tumors, respectively, none of these tumors being of the RER+ subtype. With the exception of a low KRAS mutation rate, flat adenomas appear to follow tumorigenesis pathways very similar to those identified in exophytic adenomas and carcinomas.
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PMID:Somatically acquired genetic alterations in flat colorectal neoplasias. 966 97

There is evidence supporting a multistep genetic model for colorectal tumorigenesis. In familial adenomatosis polyposis (FAP), the inherited defect is a mutation in the APC gene. The vast majority of all sporadic colorectal cancers also show mutations in the APC gene, and the tumorigenesis in sporadic colorectal cancer and FAP is assumed to involve the same genes. Hereditary nonpolyposis colorectal cancer (HNPCC) is associated with germline mutations in DNA mismatch repair genes and, as a result of defective mismatch repair, microsatellite instability (MSI) is frequently seen. Tumorigenesis in HNPCC was first thought to involve mutations in the same genes as in FAP and sporadic colorectal cancer. Recently, however, an alternative pathway to development of colorectal cancer has been suggested in colorectal tumors with MSI, compared to those tumors without the MSI phenotype. We used a consecutive series of 191 sporadic colorectal cancers to find out if there were any differences between the two groups of tumors regarding the prevalence of mutations in the APC, KRAS, TP53, and TGFbetaR2 genes. As expected, 86% (19/22) of MSI-positive tumors showed a mutation in TGFbetaR2, while only one of 164 (0.6%) MSI-negative tumors did. A highly statistically significant negative association was found between MSI and alterations in APC and TP53. The MSI-positive tumors were screened for mutations in exon 3 of beta-catenin, which has been suggested to substitute for the APC mutation in the genesis of colorectal cancer, without finding mutations in any of the 22 MSI-positive tumors. The number of mutations found in KRAS was lower in MSI-positive than in MSI-negative tumors but the difference was not statistically significant. Our results strongly support the idea that carcinogenesis in MSI-positive and MSI-negative colorectal cancer develops through different pathways.
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PMID:Colorectal cancer with and without microsatellite instability involves different genes. 1050 23

The identification of several types of familial colorectal cancer has led to the discovery of some of the genes involved in these diseases. It was subsequently shown that somatic mutations of these genes (APC, mismatch repair genes, TP53, KRAS, and DCC) also occur in sporadic colorectal cancer. Gradually, this molecular information is being incorporated into the standard histopathological analysis of colorectal cancer and can be used for the characterization of primary tumors. Although attempts have been made to use molecular parameters to better define dysplasia grades, differentiate between adenoma and carcinoma, and subtype carcinomas, histological parameters remain the standard for the classification of primary tumors. Nonetheless, molecular parameters may help define subgroups of colorectal carcinoma differing in prognosis and requiring individualized treatment regimens. Interesting possibilities are predicting the response to chemotherapy or radiotherapy at a molecular level and the search for metastasis by looking for molecular markers in lymph nodes or circulating blood. Other pathological tests being developed include the detection of KRAS, TP53, or APC mutations in stool and plasma. Such approaches will have a significant impact on the clinical management of colorectal cancer.
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PMID:Molecular pathology of colorectal cancer. 1054

In human carcinomas, mutations that alter tumour genes such as the KRAS, P53, or APC genes, are mostly point mutations. The detection of mutant alleles of tumour genes in specimens such as urine, pancreatic juice, sputum, and stool holds great promise for an early diagnosis of cancer. In addition, the detection of mutant tumour genes in tissue samples, such as lymph nodes or resection margins, may allow a sensitive diagnosis of residual malignant disease. However, the reliable detection of mutant alleles in excess of wild type alleles remains an unresolved analytical problem when the mutations are not known a priori. In the present communication, a new approach is described which makes possible the detection of unknown point mutations in tumour genes at excess of wild type alleles. The method is based on the removal of wild type alleles by hybridisation to immobilised complementary oligonucleotides. Using this approach, an enrichment of mutant KRAS, P53 and APC alleles of one mutant in up to 10(3) normal alleles has been achieved. Parallel miniaturised separation units with oligonucleotides complementary to defined sequences of a wild type allele should allow the detection of unknown point mutations as well as small insertions or deletions which occur in the sequence range covered by the oligonucleotides.
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PMID:Enrichment of mutant alleles by chromatographic removal of wild type alleles: a new principle for the detection of alleles with unknown point mutations at excess of wild type alleles. 1059 53

Since aberrant crypt foci (ACF) were first described in 1987, they have been the subjects of hundreds of papers; however, the debate continues about their role in colorectal tumorigenesis. This review focuses on the many phenotypic, genetic and epigenetic alterations in ACF that support the hypothesis that ACF are putative precursors of colorectal cancer in both humans and experimental animals. Human ACF, both with and without dysplasia, are monoclonal and display evidence of chromosomal instability. Both of these characteristics are shared by colorectal cancers. While most ACF do not have APC mutations, a large proportion has KRAS mutations and methylated SFRP1 and SFRP2 genes. This epigenetic inactivation gives rise to constitutive Wnt signaling in these putative precursors of colorectal cancer.
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PMID:Mutant KRAS in aberrant crypt foci (ACF): initiation of colorectal cancer? 1621 26

Although the occurrence of both chromosomal aberrations and specific gene mutations in colorectal tumorigenesis is firmly established, the relationship between these different forms of genetic abnormality remains poorly understood. We have previously demonstrated, in colorectal adenocarcinomas, that mutations of APC, KRAS, and TP53 are each specifically associated with certain chromosomal aberrations. Using comparative genomic hybridization and mutational analysis of APC, KRAS, and TP53 to evaluate 78 colorectal adenomas, we have shown that several of the significant relationships between gene mutations and chromosomal abnormalities reported in colorectal adenocarcinomas also exist at the adenomatous stage. KRAS mutation correlated with 12p gain (P < 0.001) and TP53 mutation with both 20q gain and 18q loss (P = 0.03 for both). In addition, we have identified two chromosomal aberrations, gain of 13q and loss of 11q, that correlate with the presence of synchronous adenomas (P = 0.049 and P = 0.03, respectively) and several chromosomal changes (20p+, 20q+, 17p-, and 18q-) that are related to the onset of high-grade dysplasia. These data strengthen our previous contention that the co-occurrence of specific gene mutations and chromosomal changes is not random and significant relationships do exist. Our findings also raise the possibility that certain chromosomal aberrations may act as important clinical biomarkers.
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PMID:Chromosomal changes in colorectal adenomas: relationship to gene mutations and potential for clinical utility. 1623 43

Previous uranium mining in the "Wismut" region in Germany enhanced environmental distribution of heavy metals and radionuclides. Carryover effects may now lead to contamination of locally produced foods. Compounds of "Wismut" origin are probably genotoxic via their irradiating components (radon) or by interacting directly with cellular macromolecules. To assess possible hazards, we investigated the genotoxic effects of uranyl nitrilotriacetate (U-NTA) in human colon tumor cells (HT29 clone 19A), adenoma cells (LT97), and nontransformed primary colon cells. These are target cells of oral exposure to environmentally contaminated foods and represent different cellular stages during colorectal carcinogenesis. Colon cells were incubated with U-NTA. Cell survival, cytotoxicity, cellular glutathione (GSH) levels, genotoxicity, and DNA repair capacity (comet assay), as well as gene- and chromosome-specific damage combination of comet assay and fluorescence in situ hybridization [FISH], 24-color FISH) were determined. U-NTA inhibited growth of HT29 clone 19A cells (75-2000 microM, 72 h) and increased GSH (125-2000 microM, 24 h). U-NTA was genotoxic (1000 microM, 30 min) but did not inhibit the repair of DNA damage caused by hydrogen peroxide (H(2)O(2)), 4-hydroxynonenal, and 2-hydroxyamino-1-methyl-6-phenylimidazo[4,5-b]-pyridine. U-NTA was also genotoxic in LT97 cells and primary colon cells, where it additionally increased migration of TP53 into the comet tail. In LT97 cells, 0.5-2mM U-NTA increased chromosomal aberrations in chromosomes 5, 12, and 17, which harbor the tumor-related genes APC, KRAS, and TP53. It may be concluded that uranium compounds could increase alimentary genotoxic exposure in humans if they reach the food chain in sufficient amounts.
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PMID:Uranyl nitrilotriacetate, a stabilized salt of uranium, is genotoxic in nontransformed human colon cells and in the human colon adenoma cell line LT97. 1684 May 63

Alterations in the cadherin-catenin expression and activation of the Wnt signaling have been related to the pathology of ovarian carcinomas. Here, we evaluated the immunoreactivity of cadherins (E-, P-, and N-cadherin and cadherin-11) and catenins (alpha-, beta-, and gamma-catenin and p120) in 86 ovarian tumors. We found significant differences in the expression of all cadherins and catenins among the distinct histologic tumor types. Clear cell tumors were rarely N-cadherin- and P-cadherin-positive and showed reduced membranous expression in all the catenins; Serous carcinomas were frequently N-cadherin- and P-cadherin-positive, mucinous tumors strongly expressed E-cadherin and the catenins in the membrane, and endometrioid tumors characteristically expressed nucleocytoplasmic beta-catenin in most of the cases. We next studied whether allelic losses in the chromosomal regions containing various cadherin genes (16q22) or APC gene (5q21) occurred in ovarian tumors and observed a high frequency of loss of heterozygosity in 16q22 (78%) and 5q21 (33%) regions, but there were no differences among the tumor types analyzed. Finally, we also assessed the molecular alterations responsible for beta-catenin nuclear accumulation in endometrioid tumors by screening for mutations in AXIN1, AXIN2, APC, and KRAS genes. Mutations in KRAS were observed in 2 of 19 tumors, but no mutations were detected in AXIN1, AXIN2, or APC genes. Only beta-catenin gene mutations were associated with nuclear beta-catenin staining in these tumors. In conclusion, different cadherin-catenin expression patterns are associated with distinct histologic types. Oncogenic Wnt signaling plays a role only in endometrioid tumors, where beta-catenin mutations seem to be the main cause of its aberrant expression.
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PMID:Expression of cadherins and catenins correlates with distinct histologic types of ovarian carcinomas. 1686 67


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