UMLS:C0033036 - FACTA Search

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

Familial juvenile polyposis (FJP) is a hamartomatouspolyposis syndrome in which affected family members develop upper and lower gastrointestinal juvenile polyps and are at increased risk for gastrointestinal cancer. A genetic locus for FJP has not yet been identified by linkage; therefore, the objective of this study was to perform a focused genome screen in a large family segregating FJP. No evidence for linkage was found with markers near MSH2, MLH1, MCC, APC, HMPS, CDKN2A, JP1, PTEN, KRAS2, TP53, or LKB1. Linkage to FJP was established with several markers from chromosome 18q21.1. The maximum LOD score was 5.00, with marker D18S1099 (recombination fraction of .001). Analysis of critical recombinants places the FJP gene in an 11.9-cM interval bounded by D18S1118 and D18S487, a region that also contains the tumor-suppressor genes DCC and DPC4. These data demonstrate localization of a gene for FJP to chromosome 18q21.1 by linkage, and they raise the possibility that either DCC or DPC4 could be responsible for FJP.
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PMID:A gene for familial juvenile polyposis maps to chromosome 18q21.1. 954 10

Turcot's syndrome (TS) is a rare disorder associated with the development of both brain and colon neoplasms. Because of the very low incidence of the disease, its molecular basis remains unclear. Presented is a TS case of a 30-year-old Japanese male with a histopathologically confirmed diagnosis of both brain tumor (glioblastoma multiforme) and colon tumor (well-differentiated adenocarcinoma). Germline mutations of the p53 gene, somatic mutations of the Ki-ras, p53 and APC genes, and microsatellite instability (MSI) was examined using polymerase chain reaction (PCR)-single strand conformation polymorphism analysis, followed by PCR-direct sequencing, and sequencing after subcloning. No germline mutations of the p53 gene were found. Somatic mutations of Ki-ras and APC genes were found in the colon adenocarcinoma but not in the brain tumor. No somatic mutation of the p53 gene was present in either colon or brain tumors. Microsatellite instability of both colon and brain tumors was positive in two of four loci. These results indicate that the colon tumor of the TS patient carries the Ki-ras and APC gene mutations. The finding of MSI in both the brain and the colon tumors may support the hypothesis that alterations of DNA repair genes are involved in the tumor development of the TS patient.
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PMID:Genetic alterations in a patient with Turcot's syndrome. 958 76

p53 gene mutation (exon4, 5, 6, 7, 8 and intron6) in gastric cancer and precancerous lesions and p53 gene (exon4 and ontron6), APC gene deletion in gastric carcinomas were studied by PCR/SSCP and PCR/RFLP. Results showed mutation rate of p53 in metaplasia, dysplasia and gastric carcinoma was 37.5% (3/8), 42.17% (8/19), 53.33 (16/30) respectively. There was significant difference among groups of metaplasia, dysplasia, cancer and normal controls. No exon8 mutation was found in metaplasia and dysplasia, but 4 cases were found to have exon8 mutation in cancer group. It is suggested that exon8 mutation occurs at the late stage of gastric cancer, but exon 5, 6, 7 mutation occur in the course of precancerous lesion to cancer. Loss of heterozygosity (LOH) of exon4, intron6, APC was 47, 37% (9/19), 8.73% (2/23), 16.67% (3/18) respectively. LOH of exon4 had something to do with poor differentiation, lymph node metastasis, depth of invasion. LOH of exon4 may be of prognostic marker of gastric cancer. We are led to conclude that p53 gene mutation is an early event and perhaps work together with ras oncogene in gastric carcinogenesis.
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PMID:Abnormal change of p53 gene in gastric and precancerous lesions and APC gene deletion in gastric carcinoma and near tissues. 963 93

A case of acute myeloid leukemia (AML) M1 with bone marrow eosinophilia was characterized by cytogenetics and fluorescence in situ hybridization (FISH). A complex karyotype including a der(12)t(12;17)(p12-13;q11) and a der(16)t(16;20)(p13;p11) was found at diagnosis. FISH studies with probes for chromosome 16 and for the short arm of chromosome 12 showed even more complex rearrangements. Analysis with a panel of probes for 12p showed that D12S158 spanned the breakpoint on the der(12). Unexpectedly, FISH signals were found on the der(12) and on the der(6) at band p13, the site of juxtaposition between the short arm of chromosome 16 and chromosome 20. Moreover, both YAC 854E2, containing the MYH11 gene, and cosmid ZIT133, encompassing the MYH11 breakpoint in inv(16) and t(16;16) of AML-M4 with eosinophilia, demonstrated fluorescent signals on the normal 16, on the der(16), and on the der(12). These data clearly support a reciprocal exchange between D12S158 at 12p13.3 and the MYH11 gene at 16p13. In addition, experiments with two PAC clones for the CBFB gene at 16q22 excluded the presence of a masked inv(16). An interstitial deletion, independent from the translocation and flanked by VWF and KRAS2, was also detected on the der(12).
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PMID:Rearrangement between the MYH11 gene at 16p13 and D12S158 at 12p13 in a case of acute myeloid leukemia M1 (AML-M1). 971 91

There is vast evidence in support of the idea that accumulated genetic changes (mutations) are the underlying cause of neoplasia development. This multi-step process is aptly illustrated by colorectal carcinoma (CRC), usually developing in the course of decades, and presumably requiring at least seven genetic events to complete its development. In CRC the oncogenes most frequently undergoing mutation are c-k-ras and c-myc, and among tumor suppressant genes--APC, MCC, DCC, p53. An updated model of the molecular bases for adenoma occurrence and its evolution into carcinoma is presented. Inheritance of a single gene only which has undergone mutation augments substantially the predisposition to CRC. This is noted in a clearcut manner in the hereditary syndromes familial adenomatous polyposis (FAP) and hereditary non-polypous colorectal carcinoma (HNPCC). Recent studies along these lines suggest that the genetic defect in FAP increases the incidence of tumor initiation through functional impairment of the APC gene which is a gene regulator of the enhanced colorectal mucosa proliferation. Contrarily, the defect in HNPCC involves mainly the tumor progression through mutation of the DNA repair genes (MMRs), which are regulators of the genome stability. The study of hereditary syndromes give rise to a new concept for the occurrence and development of sporadic and inherited cancer in humans.
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PMID:[The molecular biology and genetics of colorectal carcinoma]. 973 86

Human colon cancer is a multistage disease which has been shown to have a number of well-defined histological and genetic events. This knowledge has identified a series of stages in the development of colon cancer in which dietary components and chemicals may play either a beneficial or detrimental role. Azoxymethane-induced colon cancer in the rat represents a way of investigating such effects on the temporal development of the disease. To assess the stages involved in the long-term development of colon cancer in this animal model, Sprague-Dawley rats were treated with either one or two (given 24 hours apart) doses of azoxymethane (15 mg/kg). These low doses were chosen in an attempt to mimic the slow development of the human disease. At varying time intervals (5-84 weeks) after treatment, animals were killed and their colons were examined for lesions. Evidence was found in the distal region of the colon of a progression from early alterations (aberrant crypt foci) to microadenomas and polyps. This progression occurs in the region where carcinomas were found. The best correlation with tumorigenicity was the multiplicity of the crypts in each focus rather than simply the number of aberrant crypt foci. The aberrant crypts were microdissected from the colon and DNA was prepared. The following genes were screened for mutation using polymerase chain reaction with single-strand conformation polymorphism, oligonucleotide hybridisation, restriction site changes and sequencing: Ki-ras (exons 1 and 2), p53 (exons 5, 6, and 7 which correspond to exons 5-8 in humans), and APC (exon 15 corresponding to the mutation cluster region in humans). Extensive studies of the aberrant crypt foci formed revealed no mutations in these lesions. These results suggest that the aberrant crypt focus may be a useful short-term preneoplastic marker. However, it is clear from this and other studies that the genetic progression in the rat may vary according to the treatment regimen used and differs from that found in human. Key genes in the development of colon cancer in the rat remain to be elucidated.
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PMID:Long-term analysis of colonic aberrant crypt formation after treatment of Sprague-Dawley rats with azoxymethane. 980 74

Frequent frameshift mutations of simple nucleotide repeats in the protein-encoding regions, as well as replication errors (RERs) at microsatellite loci, have recently been demonstrated in gastrointestinal tumors. These genetic instabilities have been considered indicative of an increased risk of accumulating mutations in cancer-associated genes and of developing multiple cancers. We studied frameshift (or insertion/deletion) mutations of simple nucleotide repeats in five genes (TGFbeta type II receptor [TGFbetaRII], E2F4, MSH2, MSH3, and MSH6) in 23 tumors from 12 patients who had synchronous cancers of the esophagus and other organs. Genetic instability at four microsatellite loci, as well as mutations in the TP53, APC, and KRAS2 genes, were also studied. No frameshift mutations were observed in the TGFbetaRII, MSH3, and MSH6 genes. RER and a deletion mutation of BAT26 in MSH2 were present in one (1/23; 4%) gastric cancer. This tumor also carried a deletion mutation in the serine (AGC) repeat of the E2F4 gene. Mutation screening of the TP53, APC, and KRAS2 genes revealed that the synchronous cancers did not carry the same mutations. Our results suggested that genetic instability, such as insertion/deletion mutations in simple nucleotide repeats, is not significantly associated with the development of multiple primary cancers of the esophagus and other organs, and that these synchronous cancers developed independently according to their different environmental factors.
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PMID:Infrequent frameshift mutations of polynucleotide repeats in multiple primary cancers affecting the esophagus and other organs. 982 4

Serrated adenoma has been recently proposed as a distinct histological lesion of the colorectum. This study examined p53 immunoreactivity, mutations of exons 5-8 of the p53 gene, codon 12 of the Ki-ras gene by PCR-SSCP analyses, and microsatellite instability in 19 serrated adenomas, ten adenocarcinomas in/with serrated adenomas, 23 hyperplastic nodules, four hyperplastic polyps and 29 tubular adenomas of the colorectum. Eleven of 11 (100 per cent) serrated adenomas had p53 immunoreactivity and all six (100 per cent) adenocacinomas in/with serrated adenomas exhibited moderate to severe p53 immunoreactivity. It was confirmed that 9 of 19 (47 per cent) serrated adenomas and 5 of 10 (50 per cent) adenocarcinomas in/with serrated adenomas harboured p53 gene mutations. On the other hand, no p53 gene mutation was detected in the other colorectal lesions. Meanwhile, 11 (58 per cent) serrated adenomas and six (60 per cent) adenocarcinomas in/with serrated adenomas had Ki-ras gene mutations, as also did 9 of 23 (39 per cent) hyperplastic nodules, 3 of 4 (75 per cent) hyperplastic polyps, and 12 of 29 (41 per cent) tubular adenomas. Microsatellite instability was detected in one (5 per cent) serrated adenoma and one (10 per cent) adenocarcinoma in a serrated adenoma. The other lesions did not show microsatellite instability. Serrated adenomas had significantly frequent p53 gene mutations compared with hyperplastic lesions or tubular adenomas (p < 0.005). On the other hand, they did not exhibit significant differences in mutations of the Ki-ras gene or in microsatellite instability. Genetic changes were then examined in small parts of serrated adenomas, such as the upper or lower parts of crypts, to determine the extent of gene mutations by using a microdissection technique. Exon 15 of the APC gene and the DCC gene, in addition to the p53 and Ki-ras genes and microsatellite instability, were analysed. Identical mutations of the p53 gene were found in both invasive adenocarcinomas and adjacent serrated adenomas by direct sequencing, suggesting single clonal origins for those lesions. Mutations of the APC gene and microsatellite instability were heterogeneous in some lesions. No loss of heterozygosity (LOH) of the DCC gene was found. These findings suggest that mutations of the p53 gene are the most characteristic genetic alterations in serrated adenomas, as a relatively early event in a multistep carcinogenic pathway of this type of colorectal lesion, that might be distinct from the ordinary adenoma-carcinoma sequence or from carcinogenesis via mutations of mismatch repair genes.
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PMID:Frequent p53 gene mutations in serrated adenomas of the colorectum. 992 27

Our aim was to reveal the significance of tumor-suppressor genes and genomic instability in 99 Hong Kong Chinese colorectal carcinoma (CRC) patients by PCR-LOH analysis and PCR-PTT assay. The frequencies of allelic loss of Apc, Mcc and Dcc and of APC truncation were 31.3% (15/48), 11.6% (5/43), 44.4% (20/45) and 46/93 (49.5%), respectively. The frequency of Apc LOH was similar to, the Mcc LOH was lower than, and the Dcc LOH was higher than that reported for Caucasians and Japanese. In Hong Kong CRC patients, the replication error-positive (RER(+)) phenotype occurred with a frequency of 10% (10/99), which was similar to other results using microsatellite markers where RER(+) frequencies ranged from 11% to 28%. The rates of genetic alteration in RER(+) tumors were lower in tumors harboring p53, Mcc and Dcc alterations; similar in Apc; and higher in Ki-ras tumors compared with RER(-) tumors, though these differences did not achieve statistical significance. None of the biomarkers examined were predictive of survival independently, but strong trends confirming earlier observations of associations between RER(+) phenotypes with proximal tumor location and poorly differentiated tumor status were noted. The RER(+) phenotype was correlated significantly to the less aggressive Duke's stage B and improved prognosis. Additionally, tumors with RER(+) phenotypes were positively correlated with young age and sex. Our results support the observation that a subset of younger male CRC patients in Hong Kong may develop CRC via the RER pathway and show differences in RER status and sex. A significantly higher percentage of older Hong Kong Chinese CRC patients had APC truncations. Int. J. Cancer (Pred. Oncol.) 84:404-409, 1999.
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PMID:Genomic instability and alterations in Apc, Mcc and Dcc in Hong Kong patients with colorectal carcinoma. 1040 94

In gastric cancer, the process of carcinogenesis is thought to occur as a stepwise accumulation of genetic abnormalities. However, the mechanisms of the process of multistage carcinogenesis is still unknown for gastric cancer. Gene abnormalities seen in gastric cancer, including ras, myc, c-erbB-2, met, K-sam and cript are summarized herein. Abnormalities of cancer suppressor genes, including p53, RB and APC are also described. In our studies, the biological malignancy of patients with c-erbB-2 amplification was higher than that of patients without amplification. Moreover, the cases with amplification of c-erbB-2 were found to be highly correlated with distant organ metastasis. However, very little is currently known of the molecular abnormalities leading to gastric cancer. In order to clarify the multiple gene abnormalities in gastric cancer, we used the method of restriction landmark genomic scanning (RLGS). RLGS provides a useful method for genomic analysis of gastric cancer. In the future, new analytical methods that will permit screening of all gene abnormalities at once promise to improve our understanding of the mechanisms of gastric cancer.
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PMID:[Molecular biology in gastric cancer]. 1063 96

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