UMLS:C0699790 - FACTA Search

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Query: UMLS:C0699790 (colon cancer)
28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The receptor tyrosine kinase EPHB2 has recently been shown to be a direct transcriptional target of TCF/beta-catenin. Premalignant lesions of the colon express high levels of EPHB2 but the expression of this kinase is reduced or lost in most colorectal carcinomas. In addition, inactivation of EPHB2 has been shown to accelerate tumorigenesis initiated by APC mutation in the colon and rectum. In this study, we investigated the molecular mechanisms responsible for the inactivation of EPHB2 in colorectal tumors. We show here the presence of mutations in repetitive sequences in exon 17 of EPHB2 in 6 of 29 adenomas with microsatellite instability (MSI), and 101 of 246 MSI carcinomas (21% and 41%, respectively). Moreover, we found EPHB2 promoter hypermethylation in 54 of the 101 colorectal tumors studied (53%). Importantly, EPHB2 expression was restored after treatment of EPHB2-methylated colon cancer cells with the DNA methyltransferase inhibitor 5-aza-2'-deoxycytidine. In conclusion, in this study, we elucidate the molecular mechanisms of inactivation of EPHB2 and show for the first time the high incidence of frameshift mutations in MSI colorectal tumors and aberrant methylation of the regulatory sequences of this important tumor suppressor gene.
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PMID:Mechanisms of inactivation of the receptor tyrosine kinase EPHB2 in colorectal tumors. 1628 1

Down-regulation of RECK, an important metastasis suppressor gene, has been found in human colon cancer. However, the molecular mechanism for this down- regulation and its biological significance are still unclear. In the present study, we investigated whether down-regulation of RECK is caused by epigenetic inactivation via promoter methylation and tested the effect of DNA methyltransferase (DNMT) inhibitor on RECK expression and cell invasion. The mRNA and protein levels of RECK in colon tumor tissues and their normal counterparts were compared. We found that down-regulation of RECK was found in 48% of the twenty five tumors analyzed. MSP analysis demonstrated that methylation of RECK promoter was detected in 44% (11/25) of the tumor tissues and a strong correlation between down-regulation and promoter methylation was found (P = 0.028). Promoter methylation was also found in SW480 and SW620 human colon cancer cell lines. DNA methyltransferase (DNMT) inhibitor 5'-azacytidine reversed promoter methylation, restored RECK expression and suppressed invasion by these two cell lines. Restoration of RECK is critical for 5'-azacytidine-mediated suppression of cell invasion because inhibition of RECK by a specific antibody significantly attenuated the anti-invasive ability of 5'-azacytidine. Taken together, our results suggest that down-regulation of the metastasis suppressor RECK in colon cancer is associated with promoter methylation and that a DNMT inhibitor may restore RECK expression to inhibit cell invasion.
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PMID:Epigenetic inactivation of the metastasis suppressor RECK enhances invasion of human colon cancer cells. 1744 89

Methylation of promoter DNA contributes to transcriptional silencing of various tumor-suppressor genes in cancer. Transcriptional silencing of 15-lipoxygenase-1 (15-LOX-1) promotes tumorigenesis. Methylation of 15-LOX-1 promoter DNA occurs in some cancers, but its mechanistic role in 15-LOX-1 transcriptional silencing is unclear. We examined the mechanistic role of 15-LOX-1 promoter DNA methylation in 15-LOX-1 transcriptional regulation in human colorectal cancers. 15-LOX-1 promoter methylation occurred in colorectal cancer cells in vitro, in 36% of tumor tissue samples of colorectal cancer patients, and in virtually no normal colonic mucosa samples of 50 human subjects with no history of colorectal cancer or polyps. 15-LOX-1 promoter DNA methylation levels, however, did not correlate with 15-LOX-1 expression levels (Spearman's r=0.21; P=0.38). We employed siRNA knockdown and genetic disruption models of DNA methyltransferases (DNMTs) to study the effects of this methylation on 15-LOX-1 expression in colon cancer cells. 15-LOX-1 promoter demethylation was insufficient to reestablish 15-LOX-1 expression. 15-LOX-1 transcription was activated by the histone deacetylase inhibitor suberoylanilide hydroxamic acid (SAHA) only after DNMT-1 dissociation from the 15-LOX-1 promoter and without altering 15-LOX-1 promoter DNA methylation. DNMT-1 protein hypomorphism impaired DNMT-1 recruitment to the 15-LOX-1 promoter, which allowed 15-LOX-1 transcription activation by SAHA. DNMT-1 has a direct suppressive role in 15-LOX-1 transcriptional silencing that is independent of 15-LOX-1 promoter DNA methylation.
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PMID:15-Lipoxygenase-1 transcriptional silencing by DNA methyltransferase-1 independently of DNA methylation. 1819 15

Decitabine (DAC) and 5-azacitidine have recently been approved for the treatment of myelodysplastic syndrome. The pharmacodynamic effects of DAC and 5-azacitidine outside their known activity as inhibitors of DNA methyltransferases (DNMTs) require further investigation. The purpose of this study was to investigate the effect of DAC on the expression of p21(WAF1/CIP1), a gene with a putative CpG island surrounding its promoter region. Promoter methylation analysis of p21(WAF1/CIP1) in leukemia cells revealed the absence of CpG methylation. However, DAC upregulated p21(WAF1/CIP1) expression in a dose-dependent manner (ED(50)=103.34 nM) and induced G2/M cell cycle arrest in leukemia cells. Sequential application of DAC followed by different histone deacetylase inhibitors induced expression of p21(WAF1/CIP1) synergistically. Upregulation of p21(WAF1/CIP1) paralleled DAC-induced apoptosis (ED(50)=153 nM). Low doses of DAC induced gamma-H2AX expression (ED(50)=16.5 nM) and upregulated p21(WAF1/CIP1) in congenic HCT 116 colon cancer cells in a DNMT-independent and p53-dependent fashion. Inhibition of p53 transactivation by pifithrin-alpha or the kinase activity of ATM by either the specific ATM inhibitor KU-5593 or caffeine abrogated p21(WAF1/CIP1) upregulation, indicating that DAC upregulation of p21(WAF1/CIP1) was p53- and ATM-dependent in leukemia cells. In conclusion, DAC upregulates p21(WAF1/CIP1) in DNMT-independent manner via the DNA damage/ATM/p53 axis.
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PMID:p21(WAF1/CIP1) induction by 5-azacytosine nucleosides requires DNA damage. 1822 91

It has been proposed that cancer prevention results from multiple dietary agents acting together as "action packages." Here we obtain evidence that butyrate, which is generated from dietary fiber, enhances the responsiveness of colon cancer cells to all-trans retinoic acid (ATRA). Evidence was obtained that this interaction depends on histone deactylase one (HDAC1) inhibition by butyrate and retinoic acid receptor alpha (RARalpha) activation by ATRA. The enhancement of RAR beta 2 (RARbeta2) activation was accompanied by a rapid demethylation of the RARbeta2 promoter. This demethylation could be achieved by butyrate alone, and it differed from that triggered by the DNA methyltransferase inhibitor 5-Aza-2' deoxycytidine in that it was 1) sporadic on the RARbeta2 promoter, 2) not genome wide, and 3) independent of extensive DNA replication. An analysis of inter-methylated sites assay indicated that only a few percent of loci analyzed showed reduced methylation. In colon cancer cells that were particularly resistant to RARbeta2 reactivation, the actions of butyrate could be further enhanced by the soy isoflavone genistein, which has also been reported to work through an epigenetic mechanism. These data suggest that dietary compounds that modulate epigenetic programming are likely to function best in the presence of retinoids and other cancer-preventing compounds that are sensitive to a cell's epigenetic state.
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PMID:The short chain fatty acid butyrate induces promoter demethylation and reactivation of RARbeta2 in colon cancer cells. 1879 34

Massively parallel, tag-based sequencing systems, such as the SOLiD system, hold the promise of revolutionizing the study of whole genome gene expression due to the number of data points that can be generated in a simple and cost-effective manner. We describe the development of a 5'-end transcriptome workflow for the SOLiD system and demonstrate the advantages in sensitivity and dynamic range offered by this tag-based application over traditional approaches for the study of whole genome gene expression. 5'-end transcriptome analysis was used to study whole genome gene expression within a colon cancer cell line, HT-29, treated with the DNA methyltransferase inhibitor, 5-aza-2'-deoxycytidine (5Aza). More than 20 million 25-base 5'-end tags were obtained from untreated and 5Aza-treated cells and matched to sequences within the human genome. Seventy three percent of the mapped unique tags were associated with RefSeq cDNA sequences, corresponding to approximately 14,000 different protein-coding genes in this single cell type. The level of expression of these genes ranged from 0.02 to 4,704 transcripts per cell. The sensitivity of a single sequence run of the SOLiD platform was 100-1,000 fold greater than that observed from 5'end SAGE data generated from the analysis of 70,000 tags obtained by Sanger sequencing. The high-resolution 5'end gene expression profiling presented in this study will not only provide novel insight into the transcriptional machinery but should also serve as a basis for a better understanding of cell biology.
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PMID:High-resolution analysis of the 5'-end transcriptome using a next generation DNA sequencer. 1911 15

Inflammatory bowel disease is characterized by chronic inflammation which predisposes to colorectal cancer. The mechanisms by which inflammation promotes tumorigenesis are not fully known. We aimed to investigate the links between colonic inflammation and tumorigenesis via epigenetic gene silencing. Colon cancer specimens were assessed for the expression of DNA methyltransferase-1 (DNMT-1) using immunohistochemistry. Colorectal carcinoma cell lines were assessed for DNMT1 expression, methylcytosine content, promoter methylation, gene expression, and tumorigenesis in response to interleukin (IL)-6. DNMT1 was expressed at higher levels in both the peritumoral stroma and tumor in inflammatory bowel disease-associated cancers compared with sporadic colon cancers. IL-6 treatment of colon cancer cells resulted in an increase in DNMT1 expression, independent of de novo gene expression. IL-6 increased the methylation of promoter regions of genes associated with tumor suppression, adhesion, and apoptosis resistance. Expression of a subset of these genes was downregulated by IL-6, an effect that was prevented by preincubation with 5-azadeoxycytidine, a DNMT1 inhibitor. Anchorage-independent growth and migration of colon cancer cells was also increased by IL-6 in a 5-azadeoxycytidine-sensitive manner. Our results indicate that DNMT-mediated gene silencing may play a role in inflammation-associated colon tumorigenesis.
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PMID:Upregulation of DNA methyltransferase-mediated gene silencing, anchorage-independent growth, and migration of colon cancer cells by interleukin-6. 2035

The DNA methyltransferase inhibitors azacytidine and decitabine represent archetypal drugs for epigenetic cancer therapy. To characterize the demethylating activity of azacytidine and decitabine we treated colon cancer and leukemic cells with both drugs and used array-based DNA methylation analysis of more than 14,000 gene promoters. Additionally, drug-induced demethylation was compared to methylation patterns of isogenic colon cancer cells lacking both DNA methyltransferase 1 (DNMT1) and DNMT3B. We show that drug-induced demethylation patterns are highly specific, non-random and reproducible, indicating targeted remethylation of specific loci after replication. Correspondingly, we found that CG dinucleotides within CG islands became preferentially remethylated, indicating a role for DNA sequence context. We also identified a subset of genes that were never demethylated by drug treatment, either in colon cancer or in leukemic cell lines. These demethylation-resistant genes were enriched for Polycomb Repressive Complex 2 components in embryonic stem cells and for transcription factor binding motifs not present in demethylated genes. Our results provide detailed insights into the DNA methylation patterns induced by azacytidine and decitabine and suggest the involvement of complex regulatory mechanisms in drug-induced DNA demethylation.
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PMID:Azacytidine and decitabine induce gene-specific and non-random DNA demethylation in human cancer cell lines. 2140 21

Human cancer cells frequently have regions of their DNA hypermethylated, which results in transcriptional silencing of affected genes and promotion of tumor formation. However, it is still unknown whether cancer-associated aberrant DNA methylation is targeted to specific genomic regions, whether this methylation also occurs in noncancerous cells, and whether these epigenetic events are maintained in the absence of the initiating cause. Here we have addressed some of these issues by demonstrating that transgenic expression of DNA methyltransferase 3b (Dnmt3b) in the mouse colon initiates de novo DNA methylation of genes that are similar to genes that become methylated in human colon cancer. This is consistent with the notion that aberrant methylation in cancer may be attributable to targeting of specific sequences by Dnmt3b rather than to random methylation followed by clonal selection. We also showed that Dnmt3b-induced aberrant DNA methylation was maintained in regenerating tissue, even in the absence of continuous Dnmt3b expression. This supports the concept that transient stressors can cause permanent epigenetic changes in somatic stem cells and that these accumulate over the lifetime of an organism in analogy to DNA mutations.
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PMID:Genes methylated by DNA methyltransferase 3b are similar in mouse intestine and human colon cancer. 2149 Mar 93

5-Aza-2'-deoxycytidine (decitabine) is a drug targeting the epigenetic abnormalities of tumors. The basis for its limited efficacy in solid tumors is unresolved, but may relate to their indolent growth, their p53 genotype or both. We report that the primary molecular mechanism of decitabine-depletion of DNA methyltransferase-1 following its "suicide" inactivation-is not absolutely associated with cell cycle progression in HCT 116 colon cancer cells, but is associated with their p53 genotype. Control experiments affirmed that the secondary molecular effects of decitabine on global and promoter-specific CpG methylation and MAGE-A1 mRNA expression were S-phase dependent, as expected. Secondary changes in CpG methylation occurred only in growing cells ~24-48 h after decitabine treatment; these epigenetic changes coincided with p53 accumulation, an index of DNA damage. Conversely, primary depletion of DNA methyltransferase-1 began immediately after a single exposure to 300 nM decitabine and it progressed to completion within ~8 h, even in confluent cells arrested in G 1 and G 2/M. Our results suggest that DNA repair and remodeling activity in arrested, confluent cells may be sufficient to support the primary molecular action of decitabine, while its secondary, epigenetic effects require cell cycle progression through S-phase.
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PMID:The depletion of DNA methyltransferase-1 and the epigenetic effects of 5-aza-2'deoxycytidine (decitabine) are differentially regulated by cell cycle progression. 2172

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