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)

There is evidence supporting a multistep genetic model for colorectal tumorigenesis. In familial adenomatosis polyposis (FAP), the inherited defect is a mutation in the APC gene. The vast majority of all sporadic colorectal cancers also show mutations in the APC gene, and the tumorigenesis in sporadic colorectal cancer and FAP is assumed to involve the same genes. Hereditary nonpolyposis colorectal cancer (HNPCC) is associated with germline mutations in DNA mismatch repair genes and, as a result of defective mismatch repair, microsatellite instability (MSI) is frequently seen. Tumorigenesis in HNPCC was first thought to involve mutations in the same genes as in FAP and sporadic colorectal cancer. Recently, however, an alternative pathway to development of colorectal cancer has been suggested in colorectal tumors with MSI, compared to those tumors without the MSI phenotype. We used a consecutive series of 191 sporadic colorectal cancers to find out if there were any differences between the two groups of tumors regarding the prevalence of mutations in the APC, KRAS, TP53, and TGFbetaR2 genes. As expected, 86% (19/22) of MSI-positive tumors showed a mutation in TGFbetaR2, while only one of 164 (0.6%) MSI-negative tumors did. A highly statistically significant negative association was found between MSI and alterations in APC and TP53. The MSI-positive tumors were screened for mutations in exon 3 of beta-catenin, which has been suggested to substitute for the APC mutation in the genesis of colorectal cancer, without finding mutations in any of the 22 MSI-positive tumors. The number of mutations found in KRAS was lower in MSI-positive than in MSI-negative tumors but the difference was not statistically significant. Our results strongly support the idea that carcinogenesis in MSI-positive and MSI-negative colorectal cancer develops through different pathways.
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PMID:Colorectal cancer with and without microsatellite instability involves different genes. 1050 23

Both genetic and epigenetic factors contribute to the development of colorectal cancer. Specific genetic changes in proto-oncogenes, tumor suppressor genes, and DNA mismatch repair genes have led to a genetic model of colorectal tumorigenesis. Recent data highlight the importance of the TGF-beta signaling pathway in regulating the progression of colorectal cancer. The loss of the tumor suppressor activity of this pathway as well as the potentially cooperative genetic aberrations involving APC, K-ras, and p53 are reviewed in the context of the multi-step adenoma-carcinoma sequence that characterizes the development of colorectal tumorigenesis. In addition, contributing epigenetic factors including age, diet, angiogenesis, and immune response are also discussed. Combining our knowledge of the genetic and epigenetic events implicated in this disease may allow a broader understanding of the pathogenesis of colorectal cancer and hence the design of better anti-tumor interventions.
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PMID:Genetic and epigenetic contributions to colorectal cancer. 1051 22

Multiple neoplasias including B-cell non-Hodgkin's lymphoma, breast carcinoma, and ovarian carcinoma, have been associated with frequent deletions of the distal region on the long arm of human chromosome 6, suggesting the presence of one or more tumor suppressor gene(s) at this locus. Loss of heterozygosity analysis of breast and ovarian tumors has further restricted the minimal region of loss within 6q27. To further characterize this genomic region for gene content including putative tumor suppressor genes as well as other elements that may contribute to tumorigenesis, a 68940-bp contiguous sequence, encompassing markers D6S193 and D6S297, was generated by random shotgun sequencing of a cosmid, P1, and PAC contig. In addition, exon trapping was performed utilizing a subset of these clones. Sixteen trapped exons, ranging in size from 44 to 399 bp, span this approximately 69-kb region. Many other putative exons have been identified computationally. Further analysis has identified 13 potential promoters and 13 putative polyadenylation sites in the region. Northern analysis identified a transcript mapping within this interval that is expressed in ovarian, breast, and lymphoid-derived tumor cell lines. Consideration of these data, together with the demonstration of several regions of high CpG content, suggests the possibility of several genes at this locus.
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PMID:Analysis of a 69-kb contiguous genomic sequence at a putative tumor suppressor gene locus on human chromosome 6q27. 1052 Jul 50

PPARB was identified as a target of APC through the analysis of global gene expression profiles in human colorectal cancer (CRC) cells. PPARdelta expression was elevated in CRCs and repressed by APC in CRC cells. This repression was mediated by beta-catenin/Tcf-4-responsive elements in the PPARdelta promotor. The ability of PPARs to bind eicosanoids suggested that PPARdelta might be a target of chemopreventive non-steroidal anti-inflammatory drugs (NSAIDs). Reporters containing PPARdelta-responsive elements were repressed by the NSAID sulindac. Furthermore, sulindac was able to disrupt the ability of PPARdelta to bind its recognition sequences. These findings suggest that NSAIDs inhibit tumorigenesis through inhibition of PPARdelta, the gene for which is normally regulated by APC.
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PMID:PPARdelta is an APC-regulated target of nonsteroidal anti-inflammatory drugs. 1055 49

So far, somatic mutations of the PTEN gene have been found in several different neoplasms but not in colorectal tumours. As exons 7 and 8 of the PTEN coding sequence contain an (A)(6)repeat and mononucleotide repeat sequences are targets for mutations in tumours with microsatellite instability (MI), we screened a panel of sporadic colorectal tumours exhibiting MI to test whether PTEN gene repeats are frequently mutated in MI(+)colorectal cancers. Of 32 cases studied, seven mutations were found in six (18.75%) patients, as a PTEN biallelic frameshift mutation was observed in one case, with consequent loss of function of the gene. Loss of heterozygosity, evaluated in the remaining five cases using the microsatellite marker D10S541, was detected in two of three informative samples. To further address the role of the PTEN gene in MI(+)colorectal cancer, in the six patients with mutated PTEN, we analysed the mononucleotide repeats of six other genes: BAX, hMSH3, hMSH6, TGFbRII, IGFIIR and APC. In two of these six patients, mutations of the TGFbRII gene only were present, indicating that PTEN may have a role in the mutator pathway of colorectal tumorigenesis. Overall, these results indicate that PTEN mutations are selected for during tumorigenesis in MI(+)colorectal tumours. The mutation of both PTEN alleles and evidence that the PTEN protein is expressed in normal colon suggest that loss of function of this gene could play a direct role in tumorigenesis.
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PMID:Involvement of PTEN mutations in the genetic pathways of colorectal cancerogenesis. 1060 39

The aim of this study was to clarify the role of APC and K-ras mutations in non-polypoid colorectal tumorigenesis. DNA from 63 adenomas (31 polypoid, 17 superficial elevated, 15 superficial depressed), 66 submucosally invasive carcinomas (47 polypoid, 19 non-polypoid) and 34 advanced carcinomas were examined for K-ras codon 12 point mutations and APC mutations in the mutation cluster region. K-ras mutation: the frequency in superficial depressed adenomas was lower than that in polypoid adenomas (0% vs 31%: P= 0.018). The frequency in non-polypoid carcinomas was lower than that in polypoid carcinomas (11% vs 56%: P = 0.0008), and was relatively low compared with that in polypoid adenomas (11% vs 31%). APC mutation: the frequency in superficial depressed adenomas was lower than that in polypoid adenomas (7% vs 43%: P = 0.016), and that in polypoid carcinomas was similar to that in non-polypoid carcinomas. Polypoid adenomas, polypoid carcinomas and advanced carcinomas had almost the same frequency. There may be some pathway other than the conventional adenoma-carcinoma sequence in development of non-polypoid carcinomas. The precursors of most non-polypoid carcinomas are considered to be de novo or superficial depressed adenomas. In this non-polypoid pathway, APC mutation seems to be requisite but K-ras mutation not. It is possible that new APC mutations are acquired after the development of superficial depressed adenomas.
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PMID:Involvement of APC and K-ras mutation in non-polypoid colorectal tumorigenesis. 1063 59

Our early work using the first array and imaging methods for the quantitative analysis of the expression of 4000 cDNA sequences suggested that modulation of mitochondrial gene expression was a factor in determining whether colonic epithelial cells displayed a differentiated or transformed phenotype. We have since dissected a pathway in which mitochondrial function is a key element in determining the probability of cells undergoing cell-cycle arrest, lineage-specific differentiation, and cell death. Moreover, this pathway is linked to signaling through beta-catenin-Tcf, but in a manner that is independent of effects of the APC gene on beta-catenin-Tcf activity. Utilization of unique mouse genetic models of intestinal tumorigenesis has confirmed that mitochondrial function is an important element in generation of apoptotic cells in the colon in vivo and has demonstrated that modulation of cell death may be involved in intestinal tumor progression rather than initiation. Normal spatial and temporal patterns of cell proliferation, differentiation, and apoptosis in the colonic mucosa are determined by developmentally programmed genetic signals and external signals generated by homo- and heterotypic cell interactions, humoral agents, and lumenal contents. Mitochondrial function may play a pivotal role in integrating these signals and in determining probability of cells entering different maturation pathways. How this is accomplished is under investigation using high-density cDNA microarrays.
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PMID:Cellular mechanisms of risk and transformation. 1066 79

Although tumor suppressor genes continue to be discovered, the most recent advances have been made in attributing new and exciting functions to existing ones - such as the apparent role of VHL as a regulator of proteolysis. Great insights have also come from piecing genes together into pathways and networks. For instance the discovery that cyclin D1 is regulated by beta-catenin/Tcf-4 allows us to tie the APC pathway to the RB pathway and cell cycle control. Similarly, tumor suppressor genes have been fitted together with oncogenes into the various pathways that regulate apoptosis such that tumor suppressor function is now attributed to some of the basic components of the apoptotic machinery, such as caspases and Apaf-1. The great pace at which mouse models of tumorigenesis continue to advance our knowledge of tumor suppressor gene function has led us to look anew at the role of genes such as TCF-1 and SMAD-3 in human cancer. Finally, the realisation that different growth regulatory pathways give rise to generic signals suggests that future work may lie in integrating the signals from different pathways and in understanding the importance of protein levels to cellular function.
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PMID:Tumor suppressor genes. 1067 86

It is not clear whether APC mutations are sufficient for early colorectal adenomas to grow or whether additional mutations at other loci are required. We previously have screened 210 early colorectal adenomas from familial adenomatous polyposis patients for mutations and allelic loss at APC. Here, we determined whether allelic loss at APC had any effect on the nearby alpha-catenin gene. However, loss on 5q in familial adenomatous polyposis adenomas rarely extended as far as alpha-catenin, and no differences in alpha-catenin protein expression were found in tumors that showed loss encompassing both APC and alpha-catenin. We then screened all 210 tumors for mutations at candidate loci other than APC (K-ras, beta-catenin, and allelic loss at 1p33-p35 and 1p36) and for microsatellite instability (MSI). Each of these loci has been implicated previously in early colorectal tumorigenesis. One tumor harbored a beta-catenin mutation and another MSI, but none showed K-ras mutation or allelic loss at 1p33-p35 or 1p36. These data support the following hypotheses derived from sporadic colorectal tumors: beta-catenin mutations are generally an alternative to mutations at APC, MSI is not usually an early phenomenon in colorectal tumorigenesis, and K-ras mutations are more typical of large- and moderate-sized adenomas. Contrary to some previous reports, chromosome 1p allelic loss is infrequent in very early adenomas. APC mutations are generally sufficient for colorectal tumors to grow to about 1-cm diameter, although chance mutations at other loci can provide these early colorectal adenomas with a selective advantage, and some colorectal tumors may develop along a pathway not involving APC.
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PMID:APC mutations are sufficient for the growth of early colorectal adenomas. 1068 34

The colorectal adenoma-carcinoma sequence represents a well-known paradigm for the sequential development of cancer driven by the accumulation of genomic defects. Although the colorectal adenoma-carcinoma sequence is well investigated, studies about tumours of different dignity co-existent in the same patient are seldom. In order to address the distribution of genetic alterations in different lesions of the same patient, we coincidently investigated carcinomas, adenomas and aberrant crypt foci in patients with sporadic colon cancer. By utilizing polymerase chain reaction, single-strand conformation polymorphism, heteroduplex-analysis, restriction fragment length polymorphism, protein truncation test and sequencing techniques we looked for mutations and microsatellite instability of APC, H-ras, K-ras, p53, DCC and the DNA repair genes hMLH1/hMSH2. In accordance with the suggested adenoma-carcinoma sequence of the colon, four patients reflected the progressive accumulation of genetic defects in synchronously appearing tumours during carcinogenesis. However, two patients with non-hereditary malignomas presented different genetic instabilities in different but synchronously appearing tumours suggesting non-clonal growth under almost identical conditions of the environment. Thus, sporadically manifesting multiple lesions of the colon were not necessarily driven by similar genetic mechanisms. Premalignant lesions may transform into malignant tumours starting from different types of genetic instability, which indicates independent and simultaneous tumorigenesis within the same organ.
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PMID:Genetic analysis of multiple synchronous lesions of the colon adenoma-carcinoma sequence. 1075 1

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