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)

To elucidate early molecular events related to colon carcinogenesis, we examined alterations in the expression of colon cancer-related genes such as cyclooxygenase (COX)-2, APC and c-Myc, cell proliferation and apoptosis in the background colon mucosa, and K-ras mutation at aberrant crypt foci (ACF) in the colons of azoxymethane (AOM)-treated rats 4 weeks after the first exposure to AOM. About 40 ACF/colon were induced in the colons of rats treated with AOM (Group 1); however, rats not treated with AOM (Group 2) showed no ACF formation in the colon. The level of AgNORs in the colonic mucosa was significantly higher in Group 1 than in Group 2 (P<0.01). The colonic mucosa in Group 1 looked macroscopically and histologically normal, but the proliferative activity of the mucosa of rats treated with AOM was clearly elevated. COX-2 mRNA expression was not detected in normal colonic mucosa in Group 2, but 3 out of 10 rats in Group 1 showed COX-2 mRNA expression in their colons by reverse transcription (RT)-polymerase chain reaction (PCR). There was a tendency toward an increased expression level of COX-2 in the AOM-treated group. The level of APC mRNA expression in Group 1 was significantly lower than that in Group 2 (P<0.01). Moreover, the level of c-Myc mRNA expression in Group 1 was significantly higher than that in Group 2 (P<0.01). An average of 0.034+/-0.006% apoptosis in colonic mucosa was detected in Group 1; the incidence of apoptosis in Group 2 was 0.021+/-0.005%. The difference between Groups 1 and 2 was significant (P<0.01). These results indicate that apoptosis was possibly induced to eliminate cells damaged by AOM administration. Six out of 22 (27%) ACF with 4 or more crypts showed K-ras mutations at codon 12; all mutations were G to A transitions (GGT to GAT). ACF with 1-3 crypts showed no mutations in the K-ras gene. In conclusion, AOM caused an increase in COX-2 and c-Myc mRNA expression, a decrease in APC mRNA expression, induction of apoptosis in normal-appearing colonic mucosa, and a K-ras mutation in ACF with 4 or more crypts. These findings may help to identify key targets in the early steps of colon carcinogenesis, against which drugs that would be broadly effective for chemoprevention of colon cancer could be developed.
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PMID:Molecular changes in the early stage of colon carcinogenesis in rats treated with azoxymethane. 1214 79

Gastric cancer is common among the world, but genetic mechanisms of gastric carcinogenesis are not well understood. Gastric polypoid adenomas and flat dysplasias are regarded as precursor lesions. However, a detailed molecular study of these lesions has not been done to determine their role as precancerous lesions. We investigated mutations of the APC, beta-catenin, and K-ras genes, and microsatellite instability (MSI) status in 35 adenomas and 47 flat dysplasias without adenocarcinoma, 35 adenomas/dysplasias associated with adenocarcinomas, and 39 adenocarcinomas (20 diffuse type and 19 intestinal type). Somatic APC gene mutations were identified in 76% (59 of 78) of adenomas or flat dysplasias without associated adenocarcinoma, but in only 3% (1 of 30) of adenomas/dysplasias associated with adenocarcinoma, and in only 4% (3 of 69) of adenocarcinomas (P < 0.000001). No mutations of beta-catenin were found in adenocarcinomas, or adenomas/dysplasia without APC mutation. K-ras mutations were detected in 5% (4 of 82) of gastric adenomas/dysplasia without carcinoma, 3% (1 of 39) of adenocarcinomas without associated adenoma/dysplasia, and not in 32 adenocarcinomas with associated adenoma/dysplasia. High level of MSI (MSI-H) was more frequent in gastric adenoma/dysplasia associated with carcinoma (17%, 6 of 35) than in adenomas/dysplasia without carcinoma (3%, 2 of 75; P = 0.01). MSI-H was also more frequent in intestinal type adenocarcinoma (20%, 11 of 54) than in diffuse type (0%, 0 of 20; P = 0.03). APC gene mutations were present in six of nine (67%) of gastric adenomas/dysplasias with low level of MSI, but in none of the eight adenomas/dysplasia with MSI-H phenotype (P = 0.009). Our results indicate that somatic mutation of the APC gene plays an important role in the pathogenesis of gastric adenoma and dysplasia but has a limited role in neoplastic progression to adenocarcinoma. Gastric adenomas or dysplasias without APC mutations but with or without MSI may have a different biological behavior, and are precursors of intestinal-type of gastric adenocarcinomas.
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PMID:Inverse relationship between APC gene mutation in gastric adenomas and development of adenocarcinoma. 1216 85

We investigated the adenoma-carcinoma sequence in intraductal papillary-mucinous neoplasm from the aspect of genetic changes. The formalin-fixed paraffin-embedded tumors and surrounding normal pancreatic tissues from patients with 16 intraductal papillary-mucinous adenoma of the pancreas (IPMA) and 10 intraductal papillary-mucinous carcinoma of the pancreas (IPMC) were provided for DNA extraction after microdissection. SSCP-DNA sequencing analysis demonstrated K-ras mutations at codon 12 in 75% of IPMA and 70% of IPMC, while those at codon 13 were observed neither in IPMA nor IPMC. There were no characteristic K-ras mutation types in IPMA and IPMC and no significant differences in incidence of K-ras mutations between the two categories. The frequencies of p53 mutations analyzed by SSCP-DNA sequencing were not high in IPMA (18.8%) and IPMC (30%), showing no significant difference between them. LOHs of APC in IPMA and IPMC were infrequent (6.3 and 20%, respectively) and showed no significant difference in incidence between the two categories. The LOH frequencies of DCC in IPMA and IPMC were 31.3 and 40%, respectively, and were not statistically different from each other. Taken together, genetic changes such as K-ras, p53, APC and DCC mutations may not be associated with adenoma-carcinoma sequence in intraductal papillary-mucinous neoplasm of pancreas.
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PMID:Genetic alterations in adenoma-carcinoma sequencing of intraductal papillary-mucinous neoplasm of the pancreas. 1237 Jul 56

Small-cell neuroendocrine carcinoma (SCNC) is a well characterized malignancy with distinctive cellular morphology and aggressive biologic behavior most frequently encountered in the lung but also noted for origin from other sites. The basis for this difference in incidence and the impact of primary site location on the molecular pathogenesis of the neoplasm is not well understood. To address this issue and to identify reliable molecular markers of potential diagnostic value for primary site localization of this tumor, we have compared the genetic profile of cancer-related gene damage of SCNC arising from a variety of organ sites. The analysis involved microdissected paraffin-embedded formalin fixed specimens of SCNC. Tumors were organized into 3 groups: lung (n = 18), head and neck region (n = 5), and gastrointestinal tract (n = 5). Genotyping evaluated allelic imbalance (loss of heterozygosity) involving genomic regions containing p53 (17p13), L-myc (1p34), OGG1 (3p26), MCC/APC (5q21), p16 (9p21), PTEN (10q23), and point mutational change in K-ras-2 (12p12) using polymerase chain reaction-based microsatellite analysis and DNA sequencing. Distinct genotypic profiles of allelic imbalance using this panel was seen for each group of SCNC enabling primary site determination to be suggested based on genotypic profiling of microdissected tissue samples. Despite similarity in histologic appearance, our study suggests that SCNC have a unique pattern of acquired allelic damage that is determined in part by primary site of tumor development. These attributes can be effectively used for primary localization of metastatic SCNC, thereby assisting in the diagnosis and classification of this neoplasm.
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PMID:Small-cell neuroendocrine carcinoma displays unique profiles of tumor-suppressor gene loss in relationship to the primary site of formation. 1237 19

Molecular biology studies have led to the identification of two different types of colorectal carcinomas. The first group, called LOH (for loss of heterozygosity), represents 80% of colorectal cancers and is characterised by aneuploidy, allelic losses and a location in the distal colon. The second group displays phenotypic microsatellite instability (MSI-positive tumours), has a near-diploid karyotype and a relatively low frequency of allelic losses. It accounts for 15% of all colorectal cancers and for about 30% of right-sided cancers. Four different pathways have been identified as responsible for tumour progression: the WNT/Wingless, the K-ras, the Transforming growth factor (TGF) and the P53 pathways. The involvement of these pathways depends on the tumour type. In LOH-positive tumours, the WNT/Wingless pathway is activated through an APC mutation, whereas MSI+ tumours do so through a catenin stabilising mutation. The TGFb growth inhibitory pathway is altered either by mutations in the signal transduction molecules SMAD2 and SMAD4 in LOH positive tumours or by mutations of TGFbRII in MSI+ tumours. In the p53 pathway, mutations in BAX may contribute to the adenoma-carcinoma transition just as p53 mutations may do in LOH positive tumours. Until now, cancer phenotype determination has had no clinical implications. However, the predictive value of the MSI status was recently stressed as a predictive factor for response to chemotherapy. Immunohistochemistry could represent a complementary strategy to molecular biology in assessing MSI status. This simple test would allow to screen all colorectal carcinomas for MSI status, which would provide valuable management information in addition to the histological assessment for tumour stage and grade.
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PMID:[Genetic pathways in colorectal cancer: interest for the pathologist]. 1241 Jan 50

'De novo' carcinogenesis has been advocated besides 'adenoma carcinoma sequence' as another dominant pathway leading to the colorectal carcinoma. Our previous study demonstrated that brain (fetal)-type glycogen phosphorylase (BGP) positive foci in the transitional mucosa (BGP foci) have frequent p53 mutations and that the distribution of BGP foci has a close relationship with the location of 'de novo' carcinoma. The aims of the present study were to investigate further genetic alterations in the BGP foci and to clarify the mechanism of 'de novo' carcinogenesis. Twenty-eight colorectal carcinomas with invasion into submucosa or superficial muscularis propria without any adenoma component expressing immunoreactive p53 protein were selected from 168 resected specimens. Investigations of the p53, K-ras and APC mutations was performed in the BGP foci, BGP negative colorectal mucosa and 'de novo' carcinoma using PCR-SSCP and DNA squencing. In all 28 cases, immunoreactive BGP was positive in the carcinomas and the BGP foci were observed sporadically in the mucosa adjacent to the carcinoma. No K-ras mutation was observed in either carcinoma or BGP foci in any of the cases. Mutations of p53 and APC were 14 (50.0%) and 9 (32.1%) in 'de novo' carcinomas, and 11 (39.3%) and 1 (3.6%) in BGP foci, respectively. Both p53 and APC mutations were detected in 8 and 1, p53 mutation alone in 6 and 10, APC mutation alone in 1 and 0 out of 28 carcinomas and BGP positive foci, respectively. These results suggest that the BGP foci may play a very important role in the 'de novo' colorectal carcinogenesis from the frequent genetic alterations of p53, and that there may be two major pathways, i.e., the p53-APC pathway and the p53 alone pathway, from the chain of genetic alterations between BGP foci and 'de novo' carcinoma.
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PMID:Genetic pathways of 'de novo' colorectal carcinomas with reference to fetal-type glycogen phosphorylase positive foci. 1246 86

The genomic alterations in preneoplastic lesions are summarized in this review. 3p and 9p in the lung, 9p in the bladder, 8p in the prostata, 19q and 1p in oligodendroglioma, and 22q in meningioma were reported to be deleted. Somatic mutation of p53 was found in preneoplastic lesions of the esophagus, stomach, colon, thyroid, and astrocytoma. Adenoma-carcinoma sequence (Apc, ras, p53 gene alterations) in colon, LKB1 gene in Peutz-Jeghers syndrome, Smad4 in juvenile polyposis, hMSH2, hMLH1, PMS1, PMS2 genes in HNPCC, VHL gene in kidney, WT1 in Wilms tumor, RB gene in retinoblastoma, and ret gene in MEN were reportedly altered in preneoplastic lesions involved in hereditary tumors. Cervical dysplasia and papilloma of the head and neck infected by human papilloma virus and liver infected by B-type hepatitis virus are also precancerous. Genomic instability, APC gene alteration, point mutation of K-ras in preneoplastic lesions of stomach and K-ras and p16 alterations in metaplasia of pancreas were also found. Advances in research on genomic alterations in preneoplastic lesions will contribute to prevention and early detection of cancer.
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PMID:[Genomic alterations in preneoplastic lesions]. 1250 66

During a search for causative genes in patients with concurrent multiple primary colon tumours, we found a novel case with a germline mutation of the p53 gene, from GCC (Ala) to GTC (Val) at codon 189. Of the six primary colon tumours that this patient had, one large advanced carcinoma exhibited a somatic p53 mutation and a somatic APC mutation, in addition to the germline p53 mutation. Two early carcinomas and three adenomas had somatic APC mutations but no somatic p53 mutation or loss of the p53 allele. K-ras-2 mutations were detected in an advanced carcinoma and an early carcinoma. The present results suggest that a patient with a certain type of germline p53 mutation is predisposed to concurrent multiple colon tumours. It is also suggested that in such a patient, a somatic APC mutation is involved in tumour formation and that an additional somatic p53 mutation contributes to tumour progression.
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PMID:A novel case with germline p53 gene mutation having concurrent multiple primary colon tumours. 1252 18

Stage I non-small cell carcinoma (NSCLC) of the lung is typically treated with surgery alone, but with a 30 to 40% recurrence rate. Prognostic factors to stratify these patients into high- and low-risk groups would be of significant clinical value, but published data are conflicting. We studied 39 Stage I NSCLC treated with resection alone, followed for a minimum of 5 years, and divided into recurrent (RC) and non-recurrent (NRC) groups (n = 12 and 27, respectively). Allelic imbalance (loss of heterozygosity, LOH) involving genomic regions containing L-myc (1p32), hOGG1 (3p26), APC/MCC (5q21), c-fms (5q33.3), p53 (17p13), and DCC (18q21), and point mutational change in K-ras-2 (12p12) were studied by PCR-based microsatellite analysis and DNA sequencing. Mutations in k-ras-2 were seen in 25% and 19% of RC and NRC tumors, respectively, most frequently in adenocarcinomas. LOH in the RC and NRC respectively were 50% and 37% for L-myc, 60% and 33% for hOGG1, 60% and 50% for APC, 38% and 35% for c-fms, 78% and 75% for p53, and 17% and 45% for DCC. No statistical significance was seen comparing any of the allelic alterations with recurrence. LOH for hOGG1 and L-myc were more commonly seen in squamous cell carcinomas. Stage I NSCLC are genetically heterogeneous with respect to mutation acquisition. The approach of investigating a panel of genes for alterations can be applied to any given tumor type, and provides information on patterns of mutations/LOH that can help us better understand the molecular biology of tumorigenesis.
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PMID:Widespread molecular alterations present in stage I non-small cell lung carcinoma fail to predict tumor recurrence. 1252 10

Cancer of the biliary tract has been associated with point mutations of K-ras and beta-catenin proto-oncogenes; alterations of p53, p16, APC, and DPC4 tumor suppressor genes by a combination of chromosomal deletion, mutation, or methylation; and infrequently microsatellite instability. The frequencies of these alterations vary by location and race of the patient, tumor subsite, histology, and associated disease. Advances in the understanding of the genetics of this disease will help in diagnosing biliary tract cancer, screening at-risk patients, and developing therapies.
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PMID:Cellular and molecular biology of biliary tract cancers. 1260 85


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