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)

Most adenocarcinomas of the colorectum arise in a visible benign precursor lesion, the adenoma, which is a monoclonal proliferation of dysplastic nonmalignant epithelial cells. The resultant adenoma-adenocarcinoma sequence represents the predominant pathogenetic pathway, in contrast to de novo carcinoma. Therefore, the adenoma is a tempting endpoint for chemoprevention trials. The adenoma-adenocarcinoma sequence occurs in diverse clinical settings. In familial adenomatous polyposis (FAP) syndrome, autosomal dominant inheritance of the mutated APC (adenomatous polyposis coli) gene on chromosome 5q21 typically results in thousands of adenomas in the colorectum and in lesser numbers in the proximal small bowel. Adenocarcinoma usually develops in only a few of these adenomas, typically in the left colon and duodenum. In hereditary nonpolyposis colorectal cancer (HNPCC) syndrome, autosomal dominant inheritance of an unidentified gene appears to result in small numbers of adenomas which progress frequently to adenocarcinoma, predominantly in the right or transverse colon. In familial aggregation of colorectal cancer without a recognizable syndrome, cancer and/or adenomas occur in pedigree members. In "sporadic" cancers and adenomas, family history is absent and the tumors are mainly in the left colon. Colorectal adenomas have variable characteristics including size, shape (polypoid vs. flat), villous architecture, and dysplasia. A variety of oncogenes and tumor suppressor genes are altered during progression. Epigenetic factors are important as evidenced by the disappearance of adenomas in FAP patients after ileorectal anastomosis or treatment with the nonsteroidal antiinflammatory drug sulindac. Several variations on the theme of the adenoma-carcinoma sequence are evident. Identification of the inherited and acquired genetic alterations as well as the interacting environmental factors will provide a rational basis for chemoprevention.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The adenoma-adenocarcinoma sequence in the large bowel: variations on a theme. 133 99

A total of 114 children (age range 4 months to 18 years) underwent definitive operation for life-threatening or incessant tachydysrhythmias resulting from accessory conduction pathways (Kent bundle) (79), atrial ectopic foci (18), or ventricular ectopic foci (17). Of the patients with the accessory pathway type of supraventricular tachycardia, 63.3% (50/79) had classical Wolff-Parkinson-White syndrome whereas 36.7% (29/79) had retrograde conduction only across the pathway. Locations of the pathways were as follows: left posterior 48.1% (38/79), right anterior or lateral 27.8% (22/79), posterior septal 16.5% (13/79), anterior septal 3.8% (3/79), and both right and left 3.8% (3/79). With increasing experience, the success rate (cure of tachycardia) improved from 85% in the first 40 patients to 95% in the last 40 patients. One surgical death (1.3%) occurred secondary to a paradoxical air embolus. Atrial ectopic tachycardia was treated by cryoablation (nine), excision (one), combined excision and cryoablation (six), and atrial disconnection (two). The ectopic focus was located on the right atrial wall in 13 patients (72.2%) and cardiopulmonary bypass was required in eight (44.4%). The operation was successful in 89%; two patients with multiple ectopic foci continued to have uncontrolled tachycardia after the operation. Ventricular tachycardia presenting in the first 2 years of life was due to gross tumor in three cases (rhabdomyoma two, fibroma one) or microscopic hamartomatous change (Purkinje tumor) in five cases and was treated by excision alone or with adjuvant cryoablation. In four cases no tumor was found but the area of ectopic focus was successfully cryoablated. One child with diffuse endocardial tumor died of low cardiac output after the operation. Ventricular tachycardia in older children was localized to outflow patch aneurysms or other areas in the right ventricle following tetralogy of Fallot repair (three patients, treated by excision or cryoablation) and arrhythmogenic right ventricular dysplasia (two patients, treated by right ventricular disconnection). We conclude that mapping and operation for supraventricular tachycardia resulting from accessory pathways are predictable and curative in a high percentage of patients. Atrial ectopic tachycardias are more difficult to precisely localize but can be cured by a combination of excisional and cryoablative techniques. Ventricular tachycardia in infants is lethal and is commonly due to ectopic foci or microscopic tumors that may not be apparent on preoperative angiography or echocardiography. Electrophysiologically directed operations in these patients can be lifesaving.
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PMID:Definitive operation for refractory cardiac tachyarrhythmias in children. 405 40

Murine strains which bear constitutive inactivating mutations of either the APC or the p53 tumor suppressor genes are characterised by spontaneous tumors. APC mutated (Min) mice develop large and small bowel adenomas, a small proportion of which, in time, become malignant. p53 deficient mice develop predominantly lymphoma and sarcoma. By interbreeding these strains we have shown that there is co-operativity between these mutations, leading to a shift in phenotype. Most notably, this was characterised by a range of abnormalities of the exocrine pancreas in 83% of animals heterozygous for the APC mutation and constitutively null for functional p53. Dysplasia and preneoplastic foci were seen in 61% of these animals and pancreatic acinar cell adenocarcinoma in 22%. Analysis of these tumors showed them to have lost the remaining wild-type copy of APC. Similar loss of APC was not associated with the development of other extra-intestinal tumors. Surprisingly, given the proposed role for loss of function mutations of the p53 gene in the development of human colorectal cancer, we have found no evidence for either an increase in the rate of adenoma formation in APC +/-, p53 -/- animals, or an increased rate of progression to malignancy compared with APC +/- p53 +/+ mice. These findings highlight striking tissue-specific differences in the tumor suppressor effects of p53.
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PMID:Interaction between murine germline mutations in p53 and APC predisposes to pancreatic neoplasia but not to increased intestinal malignancy. 747 22

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

One hallmark of malignant potential is dysplasia, the disruption of normal morphology. While it is generally recognized that cancer is the result of a series of genetic changes, the relationship of these alterations and their timing to the advent of dysplasia remains obscure. To address this issue, 54 small benign colorectal lesions of various malignant potential were analyzed for APC and K-RAS mutations, two alterations which have been implicated in the early stages of colorectal tumorigenesis. APC mutations were closely associated with dysplasia. In contrast, K-RAS mutations were found to be remarkably common in small nondysplastic lesions which apparently have a limited potential to progress to larger tumors. These results provide evidence that the nature and order of genetic changes can have a specific impact on both tumor morphology (e.g., dysplasia) and the likelihood of tumor progression.
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PMID:Molecular determinants of dysplasia in colorectal lesions. 792 89

To examine early genetic events during colorectal carcinogenesis, we searched for genetic alterations in 75 adenomas from seven patients with familial polyposis coli (FAP) and in 64 sporadic colorectal tumors (63 carcinomas and one adenoma). We investigated germ-line and somatic mutations in the APC gene, somatic mutations in the K-ras and p53 genes, and loss of heterozygosity (LOH) on chromosome 8p21-22. Thirty-two FAP adenomas carried detectable somatic mutations in the APC gene. The frequency of somatic APC mutations among adenomas was the same regardless of differences in size or histopathological classification. On the other hand, K-ras mutation was very rare in small adenomas where dysplasia was mild or moderate but frequent in large adenomas with severe dysplasia. Mutation of the p53 gene was observed in only two adenomas and LOH on 8p22 was detected in none. These results imply that a second 'hit' in the APC gene, but not necessarily mutation in K-ras or p53, is an important and critical event for formation of a colorectal adenoma.
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PMID:Detailed analysis of genetic alterations in colorectal tumors from patients with and without familial adenomatous polyposis (FAP). 839 78

Both 17p and 5q allelic losses appear to be involved in the pathogenesis or progression of many human solid tumors. In colon carcinogenesis, there is strong evidence that the targets of the 17p and 5q allelic losses are TP53, the gene encoding p53, and APC, respectively. It is widely accepted that 5q allelic losses precede 17p allelic losses in the progression to colonic carcinoma. The data, however, supporting this proposed order are largely based on the prevalence of 17p and 5q allelic losses in adenomas and unrelated adenocarcinomas from different patients. We investigated the order in which 17p and 5q allelic losses developed during neoplastic progression in Barrett esophagus by evaluating multiple aneuploid cell populations from the same patient. Using DNA content flow cytometric cell sorting and polymerase chain reaction, 38 aneuploid cell populations from 14 patients with Barrett esophagus who had high grade dysplasia, cancer or both were evaluated for 17p and 5q allelic losses. 17p allelic losses preceded 5q allelic losses in 7 patients, both 17p and 5q allelic losses were present in all aneuploid populations of 4 patients, and only 17p (without 5q) allelic losses were present in the aneuploid populations of 3 patients. In no patient did we find that a 5q allelic loss preceded a 17p allelic loss. Our data suggest that 17p allelic losses typically occur before 5q allelic losses during neoplastic progression in Barrett esophagus.
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PMID:Clonal ordering of 17p and 5q allelic losses in Barrett dysplasia and adenocarcinoma. 847 62

The biology of colorectal cancer is discussed in terms of multistage carcinogenesis. Colorectal cancer evolves through the stepwise acquisition of mutations at certain critical genetic loci, many of which have been identified recently. The earliest step in the neoplastic pathway is a shift of proliferation from the normally restricted zone at the base of the colonic crypt and the retention of cells capable of proliferation at the top of the colonic crypt. This appears to be mediated by a mutation in the APC gene. The adenoma, a collection of benign neoplastic cells, is the first pathologically recognizable neoplastic lesion. Adenomas may grow or involute. Additional genetic lesions, such as a mutation in the Ki-ras gene, contribute to the growth and progressive dysplasia of the adenoma. Critical lesions in the p53 gene appear to be responsible for malignant transformation and the appearance of genetic instability of the neoplastic cell, which greatly increases the likelihood that additional genetic events will occur that contribute to a progressively more aggressive neoplastic phenotype. Genetic and phenotypic diversity develop within the primary malignant tumor, and metastasis occurs as a consequence of a complex series of events. Opportunities for detection and therapeutic intervention in colorectal neoplasia are discussed in this framework.
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PMID:The biology of colorectal cancer. Implications for pretreatment and follow-up management. 850 77

Adenocarcinoma in Barrett's esophagus is the second most rapidly increasing cancer in western society. The cause and pathogenesis are unknown. Although histological studies suggest that there is successive progression from metaplasia and dysplasia, with a high risk of subsequent invasive carcinoma, at present there is no direct evidence that metaplastic and dysplastic epithelia are clonal precursors of adenocarcinoma. We selected 12 esophagectomy specimens of Barrett's esophagus patients, which showed a spectrum of normal tissue, metaplasia, dysplasia, and invasive carcinoma in each individual biopsy. We applied the microdissection technique to selectively procure microscopic tissue samples from H&E-stained slides for genetic evaluation using polymorphic markers flanking the APC gene locus. Identical APC gene alterations were found in the dysplastic and adenocarcinoma foci of all informative cases. The same changes were observed even in some metaplastic foci adjacent to dysplasia. Furthermore, clonality analysis of X-chromosome inactivation in female cases verified the same X-chromosome inactivation pattern in carcinoma, dysplasia, and metaplasia adjacent to dysplasia. No APC gene alterations were found in the normal epithelium and metaplasia distant from dysplasia. These data show for the first time that a tissue field of genotypic changes precedes the histopathological phenotypic changes of carcinoma in Barrett's esophagus syndrome. Our findings, in conjunction with the applied tissue microdissection technique, may help identify genotypic changes in patients with Barrett's esophagus before phenotypic changes occur. Therefore, genotyping of Barrett's metaplastic epithelium may supplement the histopathological evaluation of Barrett's esophagus.
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PMID:Barrett's esophagus: metaplastic cells with loss of heterozygosity at the APC gene locus are clonal precursors to invasive adenocarcinoma. 861 31

The investigation of molecular evidence of gastric carcinoma will be contributable to the prevention, gene diagnosis and therapy of human gastric neoplasms. To determine the specific genetic change in human gastric cancer (HGC) and precancerous lesions, we analysized FISH, PCR/SSCP, IHC and DNA sequencing by using multiple probes to detect the gene abnormalities (mutation, deletion, amplification or overexpression of genes) of 67 fresh tumors, 63 endoscopic biopsies including 30 dysplasia (DYS) and 33 intestinal metaplasia (IM, and 4 tumor cell lines from HGC patients. Multiple genetic abnormalities including hypomethylation of H-ras gene, amplification and overexpression of met and erbB2, deletion of APC, mts1/p16, p53 and nm23 gene and point mutation of p53 gene were noted in HGC and precancerous lesion of human gastric mucosa. Among these changes, p53 gene was the highest frequence genetic alteration in 39/67 (54-58%) of gastric carcinoma. These results indicate that overexpression of met and H-ras occurs at early stage in progression of neoplasia, amplification of met, erbB2 and akt2 gene occurs at progressing stage of tumorigenesis, deletion of p53, APC, mts1/p16 and nm23 occurs at advanced stage in the progression of cancer. The abnormalities should be associated with malignant phenotypes: poor differentiation, vascular invasion, lymph nodes metastasis, and low survival time. We detected p53 gene mutation in both cancer and precancerous lesions of IM and DYS. These results suggest that p53 may be a susceptible gene and alteration of p53 gene plays an important role in the development of HGC.
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PMID:[Multiple gene alterations involved in the processor of human gastric carcinogenesis]. 869 90


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