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)

The incidence of adenocarcinoma of the distal esophagus is rapidly increasing in the Western world. The histopathological sequence of (Barrett's) metaplasia, which develops as a consequence of chronic reflux, to dysplasia and then to carcinoma is well established for these tumors. In Barrett's esophagus a variety of molecular changes have been characterized and correlated with tumor initiation and progression. Among the early changes in premalignant stages of metaplasia are alterations of the transcripts of FHIT, a presumptive tumor suppressor gene which spans the common fragile site FRA3B. Mutations of p53 seem to accumulate mainly in the transition from low to high grade dysplasia. Inactivation of other tumor suppressor genes by mutation (APC, p16) or hypermethylation (p16) as well as amplification of oncogenes such as cerbB2 are relatively late events in the development of adenocarcinoma. Among the phenotypic changes in Barrett's esophagus are an expansion of the Ki67 proliferation compartment which correlates with the degree of dysplasia. Moreover, accumulation of rab11 molecules which are involved in membrane trafficking has been reported to be specific for the loss of polarity seen in low grade dysplasia. Reduced expression of the cadherin/catenin complex as well as increased expression of various proteases develop chiefly in invasive carcinomas. Despite the progress that has been made in the identification of molecular markers in Barrett's carcinoma, to date the histopathological diagnosis of high grade dysplasia in endoscopic biopsies remains the best predictor of invasive cancer. Immunohistochemistry applying a panel of antibodies including p53, Mib-1 or rab11 can be helpful to diagnose regenerative metaplastic epithelium or low and high grade dysplasia.
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PMID:The molecular pathology of Barrett's esophagus. 1021 17

In patients with chronic ulcerative colitis (CUC), polypoid dysplastic lesions (PDLs) are morphologically similar to sporadic adenomas (SAs), but may be biologically distinct from them and are managed differently. p53 mutations have been shown to occur at an earlier phase in the progression of CUC-associated neoplasia when compared with sporadic colon carcinogenesis. In contrast, APC gene mutations are common and occur at an earlier stage in the development of SA. beta catenin is a cell membrane protein that accumulates in the nucleus of colon cancer cells in response to APC gene mutations. This study was performed to test the hypothesis that CUC-associated PDLs have a different molecular profile than do CUC-associated SAs and therefore may be distinguished on this basis. Mucosal biopsy specimens of 38 benign polypoid epithelial neoplasms (17 CUC-associated PDLs and 21 CUC-associated SAs) from 33 patients with CUC and 13 SAs from patients without CUC (controls) were immunohistochemically stained for p53 and beta catenin and graded as follows: 0 = no staining, 1+ = <50% of cells positive, and 2+ = > or =50% of cells positive. The results were correlated with the clinical and histologic features and compared between the two CUC-associated polyp subgroups. Overall, six (16%) polyps were p53-positive, of which five were CUC-associated PDLs (one 1+ and four 2+) and one was a CUC-associated SA (1+) (p = 0.05). Strong (2+) p53 positivity was detected, however, in only CUC-associated PDLs (4 of 5; 80%). Nine of 32 polyps evaluated for beta catenin were positive and included 1 (8%) of 12 CUC-associated PDLs and 8 (40%) of 20 CUC-associated SAs (p = 0.06). Two of the nine beta catenin polyps were strongly positive, and both were CUC-associated SAs. Non-CUC-associated (control) SAs were positive for p53 and beta catenin in 2 (15%) of 13 and 6 (46%) of 13 cases, but none in a strong (2+) fashion. No differences were observed in p53 or beta catenin staining, between CUC-associated and non-CUC-associated SAs. Neither p53 nor beta catenin expression correlated with any clinical or pathologic features, including size and degree of dysplasia of the polyps. CUC-associated PDLs and CUC-associated SAs may have a different molecular genotype. In patients with CUC, the combination of strong p53 expression and absent or weak beta catenin expression is evidence in favor of a CUC-associated PDL in diagnostically difficult lesions. Furthermore, CUC-associated and non-CUC-associated SAs have a similar P53 and beta catenin immunophenotype and thus provide evidence that they are pathogenetically related neoplasms regardless of the presence or absence of colitis.
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PMID:P53 and beta catenin expression in chronic ulcerative colitis--associated polypoid dysplasia and sporadic adenomas: an immunohistochemical study. 1043 67

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

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) 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 of 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 K-ras, 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]. 1058 88

Dietary inadequacy of folate enhances and folate supplementation suppresses colorectal carcinogenesis in the dimethylhydrazine rat model. Folate is an essential factor for DNA methylation and the de novo biosynthesis of nucleotides, aberrations of which play important roles in mutagenesis. This study investigated whether the mutational hot spots of the Apc and p53 genes for human colorectal cancer are mutated in dimethylhydrazine-induced colorectal neoplasms and whether dietary folate can modulate mutations in these regions. Rats were fed diets containing 0, 2 (basal requirement), 8 or 40 mg folate/kg diet. Five weeks after diet initiation, dimethylhydrazine was injected weekly for 15 weeks. Mutations were determined by direct sequencing in 11 low and seven high grade dysplasias and 13 invasive adenocarcinomas. A total of six Apc mutations were found in four dysplastic and carcinomatous lesions: two in two low grade dysplasias, two in one high grade dysplasia and two in one adenocarcinoma. All mutations were single base substitutions, four of which were A:T-->G:C transitions. Five of the six mutations were located upstream from the region corresponding to the human APC mutation cluster region. Dietary folate had no effect on the frequency and type of Apc mutations. No mutations were detected in exons 5-9 of the p53 gene in neoplastic lesions. These data suggest that in the dimethylhydrazine rat model of colorectal cancer, the Apc gene is mutated in early stages, albeit to a lesser degree than observed in human colorectal cancer, whereas the mutational hot spot of the p53 gene for human colorectal cancer is not commonly mutated. Although the low frequency of Apc mutations and the small number of neoplasms studied in this study might have precluded our ability to observe modulatory effects of folate, dietary folate appears to have no significant effect on Apc and p53 mutations.
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PMID:The effect of dietary folate on Apc and p53 mutations in the dimethylhydrazine rat model of colorectal cancer. 1059 Feb 31

Colorectal cancer represents the major cause for excess morbidity and mortality by malignant disease in ulcerative colitis as well as in Crohn's disease. The risk for ulcerative colitis associated colorectal cancer is increased at least 2-fold compared to the normal population and colorectal cancer is observed in 5.5-13.5% of all patients with ulcerative colitis and 0.4-0.8% of patients with Crohn's disease. Established risk factors include long duration of the disease, large extent of the disease, low activity of the disease, young age at onset, presence of complicating primary sclerosing cholangitis or stenotic disease and possibly lack of adequate surveillance, inadequate pharmacological therapy, folate deficiency and non-smoking. Crohn's disease is associated with an increased risk of colorectal carcinoma in patients with long-standing disease, strictures and fistulae under the condition that the colon is involved, tumors of the small intestine may occur occasionally. Extracolonic malignancies are rare, with the exception of biliary tract cancer. Ulcerative colitis associated colorectal cancer typically can occur in the entire colon, is often multifocal and of undifferentiated histology. Stage distribution and prognosis of ulcerative colitis associated colorectal cancer appears to be similar to that of sporadic colorectal cancer with an overall survival of about 40% (15-65%) after 5 years with tumor stage at diagnosis being the most important predictive parameter for survival. Tumor markers helpful for the diagnosis of sporadic colorectal cancer fail to differentiate between inflammatory response and malignant transformation. In contrast the histologic evidence of dysplasia was shown to be a strong indicator of underlying carcinoma or developing malignant transformation. The presence of a surface projection termed dysplasia associated lesion or mass is highly indicative of underlying or associated cancer. While the routinely performed search for dysplasia is hampered by high interobserver variation the demonstration of DNA-aneuploidy or genetic changes which may confirm the ongoing malignant transformation has not yet become clinical routine. The genetic alterations found in ulcerative colitis associated colorectal cancer involve many of the same targets found in sporadic colorectal tumors and include multiple sites of allelic deletion, microsatellite instabilities, and mutations of APC, p53, Ki-ras as well as MSH2 and other genes. The progression of dysplasia to carcinoma is generally accompanied by an accumulation of these mutations and the similarities in the biology of colorectal cancer associated with ulcerative colitis and sporadic colorectal cancer appear to outweigh their difference. In regard to the management of dysplasia and cancer, the role of surveillance programs for the early detection of ulcerative colitis associated colorectal cancer at a curable stage is still under debate. Although these programs failed at tumor prevention and lethal carcinomas are still found inadvertently in patients under surveillance, the majority of surveillance programs could reduce mortality by detecting more cancers at a still curable stage. Current recommendations for surveillance include, therefore, biennial colonoscopy with extensive biopsies after 8-10 years of total colitis or after 15-20 years of left-sided colitis. In the presence of cancer or unequivocal high-grade dysplasia and/or dysplasia associated lesion or mass proctocolectomy is considered adequate. The evidence of low-grade dysplasia should be confirmed before proctocolectomy is considered.
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PMID:Chronic inflammatory bowel disease and cancer. 1069 May 86

Due to its increasing incidence, esophageal adenocarcinoma and its precursor lesions have received increasing attention in recent years. The histopathologic steps in the process of malignant progression in Barrett's esophagus are well described and include the following: (a) metaplasia of the normal esophageal squamous epithelium to a specialized intestinal glandular epithelium, (b) development of dysplasia (classified histologically as low and high grade), and (c) development of adenocarcinoma characterized by invasive and metastatic potential. Intestinal metaplasia can be identified by the presence of goblet cells, the detection of which can be aided by finding mucin stained by Alcian blue at low pH. Despite this well-characterized sequence, the timing of the development of dysplasia and the subsequent transition to carcinoma and the risk of development of carcinoma in low- and high-grade dysplasia are not precisely known. In addition, there are problems in the identification of dysplasia, including sampling error and interobserver discrepancies among pathologists. A better understanding of the mechanisms of these events would allow early identification and elimination of high-risk lesions before adenocarcinoma with its attendant poor prognosis were able to develop. In order to better understand this process and to potentially identify early markers of malignant transformation, a variety of molecular studies have been carried out in recent years on adenocarcinoma and its precursor lesions in Barrett's esophagus. On the phenotypic level, increased expression and changes in pattern of expression of proliferation marker (Mib-1) Ki-67 antigen, overexpression of p53 protein, overexpression of growth factors such as epidermal growth factor (EGF), c-erbB2, and transforming growth factor (TGF)-a, decreased and abnormal expression of the cell adhesion molecule E-cadherin, and, in carcinomas, increased expression of serine proteases have all been described. A new area of interest is the family of rab proteins, which play an important role in maintaining cell polarity in the gastrointestinal tract. Increased expression of one of these proteins, rab11, has been described in low-grade, but not high-grade dysplasia. In cytogenetic studies, an increased S-phase fraction, followed by an increased tetraploid (4N) fraction and then aneuploidy, has been described. So far, the specific genes which have been most thoroughly investigated have been p53, APC, p16, and the sites of probable tumor suppressor genes, including 3p (FHIT), 13q, and 18q. With only a few exceptions (i.e., rab11 expression, and possibly mutations of FHIT), the numerous molecular abnormalities which have been described occur late in malignant progression, which means that the best marker which presently exists to identify high-risk lesions in Barrett's esophagus is the histologic identification of dysplasia in endoscopic biopsies, especially high-grade dysplasia. We are presently beginning studies using laser microdissection and competitive genomic hybridization (CGH), which could help to identify new chromosomal areas that might contain genes that are crucial in the early phases of malignant progression in Barrett's esophagus. In the future, identification of such early molecular events which predispose to carcinoma development will allow more precise and earlier risk assessment for individual patients, therefore, enabling more effective therapy.
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PMID:Malignant progression in Barrett's esophagus: pathology and molecular biology. 1069 36

We herein summarize the reports on genetic changes in precancerous lesions in the gastrointestinal tract. It has been reported that with esophageal lesions such as dysplasia and Barrett's esophagus there is a high frequency of p53 mutations. Among gastric lesions, some cases of chronic atrophic gastritis have been shown to harbor K-ras mutations. p53 and APC mutations in intestinal metaplasia have also been demonstrated, as have APC mutations in flat adenomas. With colorectal lesions, it has been reported that K-ras, DCC, p53 mutations commonly occur while APC mutations are also seen in cases of adenoma-carcinoma. p53 and K-ras mutations have been demonstrated with serrated adenoma, and K-ras mutations with hyperplastic polyps APC mutations in familial polyposis coli, LKB1 mutations in Peutz-Jeghers syndrome, and SMAD4/DPC4 mutations in juvenile polyposis syndrome have been found. Besides these genes, other genetic changes likely occur in carcinogenesis among those with hereditary diseases. K-ras mutations in aberrant crypt foci and hMSH2 mutations in ulcerative colitis have been found. Research into the genetic changes associated with cancerous lesions should lead to the development of early diagnosis and treatment methods for gastrointestinal cancer as well as the improved comprehension of carcinogenesis.
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PMID:[Genome analyses for precancerous lesions in the gastrointestinal tract]. 1074 Jun 25

Seventy malignant, premalignant and histologically normal biopsies from 7 oesophagogastrectomy specimens of adenocarcinomas of the lower oesophagus and gastroesophageal junction were analysed for loss of heterozygosity (LOH) at 9 known or putative gene loci. LOH was detected in 20 of 27 (74%) malignant biopsies, 4 of 7 (57%) biopsies of dysplasia, 2 of 12 (25%) biopsies of histologically normal oesophagus adjacent to adenocarcinoma, and in 2 of 14 (14%) biopsies of histologically normal stomach adjacent to adenocarcinoma. LOH at the VHL, APC, CDKN2 and DCC tumour suppressor and MSH3 mismatch repair gene loci can be detected in histologically normal tissue and in adjacent adenocarcinoma, and are potential markers of early neoplastic progression.
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PMID:Histological and molecular mapping of adenocarcinoma of the oesophagus and gastroesophageal junction: loss of heterozygosity occurs in histologically normal epithelium in the oesophagus and stomach. 1076 62

The prevalence of Barrett's oesophagus has risen over a short time interval implying environmental in addition to genetic aetiological factors. Bile salt effects from duodenogastro-reflux are assuming increasing importance with deoxycholic and taurodeoxycholic acid being particularly associated with Barrett's oesophagus. The cellular biology changes appear to follow a progression from initial inflammation and oesophagitis to metaplasia and dysplasia through to adenocarcinoma. Mechanisms of restitution include epidermal growth factor mediated increases in epithelial thickness. This results in basal stem cells becoming superficially placed and exposed further to luminal refluxed bile salts. Immature stem cells result which undergo mutation to a metaplastic glandular phenotype with intestinal metaplasia. P53 mutation increasingly occurs in progression to dysplasia and carcinoma and may confer a survival advantage of these cell clones by delaying apoptosis. Cell cycling gene mutations occur with accumulation of cells in G2 phase. Disruption of cellular checkpoint mechanisms in the mitotic process result in loss of heterozygosity and aneuploidy including loss of the Y chromosome. Identical mutations between adjacent areas of dysplasia and adenocarcinoma supports clonal expansion as the mechanism of carcinogenesis. APC tumour suppressor gene mutations are conserved in synchronous carcinomas in Barrett's dysplasia and are associated with beta-catenin accumulation in the nucleus and cellular migration with invasion. Cumulative genetic errors result in abnormal clones with metastatic or angiogenic potential. When a clone with malignant potential occurs adenocarcinoma can result completing the progression from inflammation to metaplasia and dysplasia through to adenocarcinoma.
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PMID:Genetic versus environmental interactions in the oesophagitis-metaplasia-dysplasia-adenocarcinoma sequence (MCS) of Barrett's oesophagus. 1090 14


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