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Query: UMLS:C0001430 (adenoma)
 21,222 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Comet-FISH technique is a useful tool to detect overall and region-specific DNA damage and repair in individual cells. It combines two well-established methods, the Comet assay (single cell gel electrophoresis) and the technique of fluorescence in situ hybridization (FISH). Whereas the Comet assay allows separating fragmented from non-fragmented DNA, FISH helps to detect specifically labelled DNA sequences of interest, including whole chromosomes. Thus the combination of both techniques has been applied in particular for detection of site-specific breaks in DNA regions which are relevant for development of different diseases. This paper reviews the relevant literature and presents three examples on how Comet-FISH was used for studying the induction of DNA damage by genotoxic compounds related to oxidative stress in colon cancer-relevant genes (TP53, APC, KRAS) of a colon adenoma cell line. The accumulated evidence on relative sensitivity of these genes in comparison to global damage allows a more definite conclusion on the possible contribution of the genotoxic factors during colorectal carcinogenesis. Telomere fragility was compared in different cell lines treated with cytostatic agents, and revealed new patterns of biological activities through the drugs and different sensitivities of the cell lines that were found to be associated with their tumour origin. A third example relates to measuring repair of specific gene regions using Comet-FISH, a method that can be developed to biomarker application. Taken together, available data suggests that Comet-FISH helps to get further insights into sensitivity of specific DNA regions and consequently in mechanisms of carcinogenesis. Although the nature of the measured Comet-FISH endpoint precludes us from stating basically that damage and repair are occurring within the specific gene, it is at least possible to evaluate whether the damage and repair are occurring within the vicinity of the gene of interest.
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PMID:Use of Comet-FISH in the study of DNA damage and repair: review. 1830 59

Current algorithms for screening and surveillance for colon cancer are valuable, but may be limited by the underlying nature of the targeted neoplastic lesions. Although part of the success of adenoma removal relates to interruption of so-called "adenoma-carcinoma sequence", an alternate serrated pathway to colon cancer may pose difficulties with the ultimate results achieved by traditional colonoscopic methods. The endpoint carcinoma in this unique pathway may be derived from a dysplastic serrated adenoma. These tend to be located primarily in the right colon, especially in females, and are frequently associated with co-existent colon cancer. Unfortunately, however, there are few, if any, other identifiable risk factors, including age or family history of colon polyps or colon cancer. Moreover, this alternate serrated pathway may itself also be quite biologically heterogeneous as reflected in sessile serrated adenomas (SSA) with virtually exclusive molecular signatures defined by the presence of either BRAF or KRAS mutations. Screening algorithms in the future may need to be modified and individualized, depending on new information that likely will emerge on the natural history of these biologically heterogeneous lesions that differs from traditional adenomatous polyps.
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PMID:Heterogeneity of colorectal adenomas, the serrated adenoma, and implications for screening and surveillance. 1856 71

The pathogenesis of duodenal adenomas is not well elucidated. Much of the literature pertains to ampullary adenomas and those associated with familial adenomatous polyposis (FAP). In this study, we evaluated the molecular features of a series of sporadic duodenal adenomas (n=22) that developed distal to the ampulla, and compared them with the features of sporadic ampullary adenomas (n=9) and FAP-related polyps (n=12). Using a combination of immunohistochemical studies [cytokeratins 7 and 20, E-cadherin, beta-catenin, p53, MLH-1, MSH-2, MSH-6, and O6-methylguanine methyltransferase (MGMT)], DNA sequencing [beta-catenin, adenomatous polyposis coli (APC), p53, KRAS, and BRAF], and a polymerase chain reaction-based microsatellite instability assay; we assessed each case for abnormalities in the Wnt signaling and mitogen-activated protein kinase pathways and DNA repair mechanisms. Wnt signaling pathway abnormalities occurred in sporadic, nonampullary (82%), and ampullary (77%) adenomas at comparable rates, usually reflecting nuclear beta-catenin immunostaining (64% and 44%, respectively), and APC rather than beta-catenin, mutations. KRAS mutations were infrequent in sporadic, nonampullary adenomas (18%), and FAP-related adenomas (9%); moderately frequent in ampullary adenomas (44%); and none of the cases harbored BRAF mutations. Only 4 (13%) sporadic adenomas showed nuclear p53 staining, but no p53 mutations were detected in exons 5 to 8. Loss of O-methylguanine methyltransferase immunostaining was identified in 1 sporadic, nonampullary adenoma, and none of the polyps in any group showed loss of MLH-1, MSH-2, or MSH-6 staining, or high-frequency microsatellite instability. We conclude that sporadic and FAP-related adenomas show similar molecular features, regardless of their anatomic location. Similar to colorectal adenomas, they harbor APC and KRAS mutations; but BRAF mutations, p53 alterations, and DNA mismatch repair abnormalities are rare.
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PMID:Immunohistochemical and molecular features of sporadic and FAP-associated duodenal adenomas of the ampullary and nonampullary mucosa. 1867 Mar 49

The fundamental view that colon adenocarcinomas arise only from conventional adenomas has been challenged by the now recognized hyperplastic polyp-serrated adenoma-adenocarcinoma pathway. This article describes the history of the serrated adenoma (both the traditional serrated adenoma and the sessile serrated adenoma) as well as the histology and endoscopic appearance of these lesions in comparison with hyperplastic polyps and mixed polyps. Although the exact pathway is the subject of ongoing research, compelling histologic associations and molecular phenotypes that define the model of the serrated polyp-carcinoma sequence, including microsatellite instability, BRAF/KRAS mutations, and CpG island methylator phenotype, provide strong evidence that this is a genuine pathway. Management of serrated neoplasia of the colon includes careful colonoscopy, complete removal of colonic polyps, sampling fields of diminutive polyps of the rectosigmoid, and basing surveillance on histology of removed polyps.
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PMID:Significance of serrated polyps of the colon. 1879 25

Activating point mutations of the mouse Kras2 oncogene or its human homologue, KRAS, are critical for lung adenocarcinoma genesis, independent of the species. Significantly, in the mouse, several polymorphic Kras2 alleles have been identified, which cosegregate with genetic susceptibility to chemical induction of lung tumors. Moreover, a major lung tumor susceptibility locus, the Pas1 (Pulmonary adenoma susceptibility 1), was found to colocalize with Kras2 on distal chromosome 6 on linkage analysis. The Kras2 may thus be involved in both cellular transformation and genetic control of tumor susceptibility. In this review, the focus is on current knowledge regarding the relationship between Kras2 and experimental mouse lung carcinogenesis, especially from the aspect of disease predisposition. Because mouse and human lung tumors share considerable similarities, the experimental information should provide clues to personalized medicine in the human setting.
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PMID:The Kras2 oncogene and mouse lung carcinogenesis. 1910 9

Aberrant Wnt/beta-catenin signaling following loss of the tumor suppressor adenomatous polyposis coli (APC) is thought to initiate colon adenoma formation. Using zebrafish and human cells, we show that homozygous loss of APC causes failed intestinal cell differentiation but that this occurs in the absence of nuclear beta-catenin and increased intestinal cell proliferation. Therefore, loss of APC is insufficient for causing beta-catenin nuclear localization. APC mutation-induced intestinal differentiation defects instead depend on the transcriptional corepressor C-terminal binding protein-1 (CtBP1), whereas proliferation defects and nuclear accumulation of beta-catenin require the additional activation of KRAS. These findings suggest that, following APC loss, CtBP1 contributes to adenoma initiation as a first step, whereas KRAS activation and beta-catenin nuclear localization promote adenoma progression to carcinomas as a second step. Consistent with this model, human FAP adenomas showed robust upregulation of CtBP1 in the absence of detectable nuclear beta-catenin, whereas nuclear beta-catenin was detected in carcinomas.
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PMID:A two-step model for colon adenoma initiation and progression caused by APC loss. 1945 May 12

In colorectal cancer, BRAF and KRAS oncogenes are mutated in about 15% and 35% respectively at approximately the same stage of the adenoma-carcinoma sequence. Since these two mutations rarely coexist, further analysis to dissect their function of transformation in colon cancer is required. Caco-2 human colon adenocarcinoma cells were stably transfected with BRAF(V600E) (Caco-BR cells) or KRAS(G12V) (Caco-K cells) oncogenes. BRAF(V600E) is more efficient in transforming Caco-2 cells and altering their morphology. The dominant nature of BRAF(V600E) is evident by its ability to render Caco-2 cells tumorigenic in vivo all be it through selective extracellular signal-related kinase (ERK) 2 phosphorylation and high levels of cyclin D1. As a consequence, the cell cycle distribution of parental cells is altered and microsatellite instability is introduced. Attenuated ERK activation observed correlated with KSR downregulation by BRAF(V600E) without further implications to signaling. Highly activated ERK in case of KRAS(G12V) (Caco-K cells) leads to mild transformation causing Caco-K cells to express premature senescence-related markers and acquire growth factor-dependent viability. Interestingly, BRAF(WT)gets equally activated by upstream KRAS mutations present in colon adenocarcinoma cells such as DLD-1 and SW620. Taken together, these results suggest that the two oncogenes have different transforming capability in colon cancer, although they both use the mitogen-activated protein (MAP) kinase pathway to carry out their effect. In general, BRAF(V600E) presents greater potential in mediating tumorigenic effect as compared to KRAS(G12V) both in vivo and in vitro. These findings may have implications in personalised diagnosis and targeted therapeutics.
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PMID:BRAF(V600E) efficient transformation and induction of microsatellite instability versus KRAS(G12V) induction of senescence markers in human colon cancer cells. 1988 48

The serrated pathway of colorectal carcinogenesis is heterogeneous with respect to its precursor lesions, molecular alterations and its prognosis. The low-risk-subtype of serrated adenocarcinomas is less frequent (<20% of all serrated adenocarcinomas) and characterized by proximal location, BRAF-mutation, high CpG-island methylation with loss of MLH1-expression and MSI-H phenotype. The assumed precursor lesion of this subtype is the sessile serrated adenoma and the 5-year overall survival is >70%. The high-risk-subtype is more frequent (>80% of all serrated adenocarcinomas) and characterized by distal location, KRAS mutation, MSI-L/MSS phenotype, lower CpG-island methylation, and possible p53 accumulation. The assumed precursor lesion is the traditional serrated adenoma and the prognosis is unfavorable (<30% 5-year overall survival). The analysis of MSI status, KRAS and BRAF mutational status and immunohistochemical analyses of hMLH1 and p53 expression enables the distinction between these two subtypes and is therefore clinically relevant, especially since treatment options for the two subtypes may differ in the future.
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PMID:[Serrated pathway of colorectal carcinogenesis]. 1992 Nov 96

Most genetically engineered mouse (GEM) models for colon cancer are based on tissuewide or germline gene modification, resulting in tumors predominantly of the small intestine. Several of these models involve modification of the adenomatous polyposis coli (Apc) gene and are excellent models for familial cancer predisposition syndromes. We have developed a stochastic somatic mutation model for sporadic colon cancer that presents with isolated primary tumors in the distal colon and recapitulates the entire adenoma-carcinoma-metastasis axis seen in human colon cancer. Using this model, we have analyzed tumors that are either solely mutant in the Apc gene or in combination with another colon cancer-associated mutant gene, the Kras G12D allele. Because of the restricted location in the distal colon, the natural history of the tumors can be analyzed by serial colonoscopy. As the mammalian target of rapamycin (mTOR) pathway is a critical component of the complex signaling network in colon cancer, we used this model to assess the efficacy of mTOR blockade through rapamycin treatment of mice with established tumors. After treatment, Apc mutant tumors were more than 80% smaller than control tumors. However, tumors that possessed both Apc and Kras mutations did not respond to rapamycin treatment. These studies suggest that mTOR inhibitors should be further explored as potential colorectal cancer therapies in patients whose tumors do not have activating mutations in KRAS.
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PMID:Development of a mouse model for sporadic and metastatic colon tumors and its use in assessing drug treatment. 2008 Jun 88

We have recently shown that a study population of patients with at least 1 sessile serrated adenoma (SSA) are 4 times more likely to harbor synchronous serrated polyps [SSAs, traditional serrated adenomas (TSAs) and right sided hyperplastic polyps] than a unselected population of patients. However, 35% of the polyps in the study patients were conventional adenomas (CAds). We hypothesized that the CAds in these study patients would have histologic and molecular differences compared with CAds from a control population without sessile serrated adenomas. To this end, 104 study and 79 control CAds were analyzed according to 9 histologic criteria. A subset of these polyps was also screened for BRAF mutations, KRAS mutations, CpG island methylation, and MUC6 expression. A total of 31 study CAds and 2 control CAds had atypical histologic features (bright cytoplasmic eosinophilia +/- focal serrations and crypt dilatation). None of the adenomas tested had mutations in BRAF or KRAS. Evidence of low levels of CpG island methylation was seen in 35% of the atypical CAds and in only 4.5% of the typical CAds. In addition, these atypical CAds were more likely to express MUC6. Thus, the presence of cytoplasmic eosinophilia with or without focal serrations and crypt dilatation identifies a subset of CAds with characteristics of the serrated neoplasia pathway. These atypical CAds occur more commonly in patients predisposed to developing SSAs and suggest the presence of a mucosal field defect in these patients.
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PMID:Identification of histologically distinct conventional adenomas that arise predominately in patients with sessile serrated adenomas. 2011 68


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