EC:2.1.1.37 - FACTA Search

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Query: EC:2.1.1.37 (DNA methyltransferase)
4,983 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Multidrug resistance (MDR) is a major problem in patients with hematological malignancies. Although drug-resistance is known to be induced by the expression of P-glycoprotein (P-gp) encoded by the MDR-1 gene, little is known about the mechanisms regulating this gene. Herein, we studied the DNA methylation patterns at the enhancer and repressor binding sites of the MDR-1 gene using the human erythroleukemia cell line K562 and its multidrug resistant derivative K562/ADM (adriamycin). Direct DNA sequence analysis demonstrated methylation to be present at the repressor site (minus 110 GC-box) of the MDR-1 gene in K562/ADM cells, but not in parental K562 cells. Methylation-specific PCR (MSP) analysis yielded similar results. Treatment of K562/ADM cells with 5-Aza-2'-deoxycytidine (decitabine; DAC), an inhibitor of DNA methyltransferase, caused demethylation of the repressor binding site of MDR-1 gene, as assessed by MSP, and also decreased P-gp expression, as assessed by flow cytometric and Northern blot analysis. Although it is generally accepted that DAC upregulates gene expression by demethylating the activator binding sites, our present results suggest that DAC induces down-regulation of P-gp expression as a result of demethylation at the repressor binding site in K562/ADM cells. In this regard, methylation-dependent regulation of the MDR-1 gene in K562/ADM cells is unique.
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PMID:Decitabine (5-Aza-2'-deoxycytidine) decreased DNA methylation and expression of MDR-1 gene in K562/ADM cells. 1106 27

Histone deacetylation and DNA methylation have a central role in the control of gene expression, including transcriptional repression of tumour suppressor genes. Loss of DNA mismatch repair due to methylation of the hMLH1 gene promoter results in resistance to cisplatin in vitro and in vivo. The cisplatin-resistant cell line A2780/cp70 is 8-fold more resistant to cisplatin than the non-resistant cell line, and has the hMLH1 gene methylated. Treatment with an inhibitor of DNA methyltransferase, DAC (2-deoxy-5'-azacytidine), results in a partial reversal of DNA methylation, re-expression of MLH1 (mutL homologue 1) and sensitization to cisplatin both in vitro and in vivo. PXD101 is a novel hydroxamate type histone deacetylase inhibitor that shows antitumour activity in vivo and is currently in phase I clinical evaluation. Treatment of A2780/cp70 tumour-bearing mice with DAC followed by PXD101 results in a marked increase in the number of cells that re-express MLH1. Since the clinical use of DAC may be limited by toxicity and eventual re-methylation of genes, we suggest that the combination of DAC and PXD101 could have a role in increasing the efficacy of chemotherapy in patients with tumours that lack MLH1 expression due to hMLH1 gene promoter methylation.
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PMID:Epigenetic approaches to cancer therapy. 1550 76

In vitro and in vivo, myeloid leukemic and preleukemic cells exhibit variable sensitivity to the antiproliferative and proapoptotic effects induced already at low concentrations of DNA methyltransferase (DNMT) inhibitors. The molecular mechanisms underlying this variable sensitivity of leukemic blasts to azanucleosides such as 5-azacytidine and 5-aza-2'-deoxycytidine (DAC) may involve modifier effects of specific fusion proteins such as AML1/ETO. The cyclin-dependent kinase inhibitor p15/INK4b is one potential target of DNA demethylating activity in AML and MDS where it is frequently silenced by hypermethylation. To study sensitivity to DAC in myeloid leukemia cells, we chose the myeloid cell lines Kasumi-1 (expressing AML1/ETO), KG-1 and KG-1a (both AML1/ETO-negative) all of which a highly methylated p15/INK4b gene. Treatment with DAC resulted in dose-dependent regional demethylation of p15/INK4b in Kasumi-1 and KG-1, but only to a modest degree in KG-1a cells. Demethylation was associated with induction of p15/INK4b protein expression. Growth-inhibitory and proapoptotic activity of DAC was significantly higher in Kasumi-1 than in KG-1a cells, and sensitization of cells to a cooperating effect of All-trans retinoic acid and of the histone deacetylase (HDAC) inhibitor Trichostatin A was observed. DAC-induced growth inhibition and apoptosis were enhanced when AML1/ETO was conditionally expressed in AML1/ETO-negative U-937 cells. In conclusion, hypomethylation and reactivation of p15/INK4b in myeloid cell lines are among the molecular events associated with DAC-induced growth arrest and apoptosis. Further studies of AML1/ETO as a modifier of the epigenotype and sensitivity of myeloid cells to inhibitors of DNMTs and HDACs appear warranted.
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PMID:Reversal of p15/INK4b hypermethylation in AML1/ETO-positive and -negative myeloid leukemia cell lines. 1705 12

Tumor angiogenesis requires intricate regulation of gene expression in endothelial cells. We recently showed that DNA methyltransferase (DNMT) and histone deacetylase (HDAC) inhibitors directly repress endothelial cell growth and tumor angiogenesis, suggesting that epigenetic modifications mediated by DNMTs and HDAC are involved in regulation of endothelial cell gene expression during tumor angiogenesis. To understand the mechanisms behind the epigenetic regulation of tumor angiogenesis, we used microarray analysis to perform a comprehensive screen to identify genes down-regulated in tumor-conditioned versus quiescent endothelial cells, and reexpressed by 5-aza-2'-deoxycytidine (DAC) and trichostatin A (TSA). Among the 81 genes identified, 77% harbored a promoter CpG island. Validation of mRNA levels of a subset of genes confirmed significant down-regulation in tumor-conditioned endothelial cells and reactivation by treatment with a combination of DAC and TSA, as well as by both compounds separately. Silencing of these genes in tumor-conditioned endothelial cells correlated with promoter histone H3 deacetylation and loss of H3 lysine 4 methylation, but did not involve DNA methylation of promoter CpG islands. For six genes, down-regulation in microdissected human tumor endothelium was confirmed. Functional validation by RNA interference revealed that clusterin, fibrillin 1, and quiescin Q6 are negative regulators of endothelial cell growth and angiogenesis. In summary, our data identify novel angiogenesis-suppressing genes that become silenced in tumor-conditioned endothelial cells in association with promoter histone modifications and reactivated by DNMT and HDAC inhibitors through reversal of these epigenetic modifications, providing a mechanism for epigenetic regulation of tumor angiogenesis.
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PMID:Identification of epigenetically silenced genes in tumor endothelial cells. 1748 24

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

2'-Deoxy-N4-[2-(4-nitrophenyl)ethoxycarbonyl]-5-azacytidine (NPEOC-DAC), decitabine with a modification of the N4 position of the azacitidine ring can be used to inhibit DNA methyltransferase. This modification protects the azacitidine ring and can be cleaved by carboxylesterase to release decitabine. NPEOC-DAC was 23-fold less potent at low doses (<10microM) than decitabine at inhibiting DNA methylation, and was also associated with a 3-day delay in its effect. However, at doses > or = 10microM NPEOC-DAC was more effective at inhibiting DNA methylation. Theses differences between decitabine and NPEOC-DAC are dependent on the cleavage of the carboxylester bond, and could be potentially exploited pharmacologically.
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PMID:2'-Deoxy-N4-[2-(4-nitrophenyl)ethoxycarbonyl]-5-azacytidine: a novel inhibitor of DNA methyltransferase that requires activation by human carboxylesterase 1. 1849 40

Altered expression of microRNA (miRNA) is strongly implicated in cancer, and recent studies have shown that, in cancer, expression of some miRNAs cells is silenced in association with CpG island hypermethylation. To identify epigenetically silenced miRNAs in colorectal cancer (CRC), we screened for miRNAs induced in CRC cells by 5-aza-2'-deoxycytidine (DAC) treatment or DNA methyltransferase knockout. We found that miRNA-34b (miR-34b) and miR-34c, two components of the p53 network, are epigenetically silenced in CRC; that this down-regulation of miR-34b/c is associated with hypermethylation of the neighboring CpG island; and that DAC treatment rapidly restores miR-34b/c expression. Methylation of the miR-34b/c CpG island was frequently observed in CRC cell lines (nine of nine, 100%) and in primary CRC tumors (101 of 111, 90%), but not in normal colonic mucosa. Transfection of precursor miR-34b or miR-34c into CRC cells induced dramatic changes in the gene expression profile, and there was significant overlap between the genes down-regulated by miR-34b/c and those down-regulated by DAC. We also found that the miR-34b/c CpG island is a bidirectional promoter which drives expression of both miR-34b/c and B-cell translocation gene 4 (BTG4); that methylation of the CpG island is also associated with transcriptional silencing of BTG4; and that ectopic expression of BTG4 suppresses colony formation by CRC cells. Our results suggest that miR-34b/c and BTG4 are novel tumor suppressors in CRC and that the miR-34b/c CpG island, which bidirectionally regulates miR-34b/c and BTG4, is a frequent target of epigenetic silencing in CRC.
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PMID:Epigenetic silencing of microRNA-34b/c and B-cell translocation gene 4 is associated with CpG island methylation in colorectal cancer. 1851 71

Both, DNA methylation and histone deacetylation play a crucial role in cancer development by silencing the expression of specific tumour suppressor genes. Several studies describe the use of combinations of DNA methyltransferase inhibitors (DNMT-i) and histone deacetylase inhibitors (HDAC-i) as an improved strategy to treat neoplasms. However, no information is available concerning their biological impact on healthy, non-malignant cells, including hepatocytes. Therefore, the effects of the combination of the DNMT-i decitabine (DAC) with the HDAC-i 6-[(4-pyrrolidine-1-ylbenzoyl) amino] hexanoic acid hydroxamate (AN-8) on cell proliferation and differentiation were examined in primary rat hepatocyte cultures. We found that, upon simultaneous exposure of the cells to both compounds, a synergetic anti-proliferative outcome was achieved. This inhibition of DNA synthesis was accompanied by a reduced expression of cyclin-dependent kinase 1 (cdk1), a key cell cycle marker that controls the S/G2/M transition. Compared to exposure of the cells to each agent separately, the combination of lower concentrations of both DAC and AN-8 promoted the maintenance of the differentiated phenotype of the cells as a function of culture time. The functionality of the hepatocytes was evidenced by an increased expression of the phase I biotransformation enzyme cytochrome P 450 (CYP) 1A1 and albumin secretion capacity when both agents were used in combination.
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PMID:Synergetic effects of DNA demethylation and histone deacetylase inhibition in primary rat hepatocytes. 2144 78

The purpose of this study on the involvement of epigenetic control of the expression of solute carrier (SLC) transporters by DNA methylation and histone deacetylation in 4 colon cancer cells is to find the epigenetic control mechanisms of drug transporters in colon cancers. Human colon cancer cell lines (HCT116, HT29, SW48, SW480) were treated with 5-aza-2'-deoxycytidine (DAC), as a DNA methyltransferase inhibitor, followed by trichostatin A (TSA), as a histone deacetylase inhibitor. The mRNA expression and DNA methylation of several SLC transporters were analyzed by real-time polymerase chain reaction (PCR) and methylation-specific PCR, respectively. Among 12 SLC transporters possessing cytosine-phosphate-guanine (CpG) islands, thiamine transporter 2 (THTR2) (SLC19A3) gene showed a correlation between its mRNA expression level and DNA methylation status. TSA treatment increased histone H3 acetylation of THTR2 promoter region in all 4 colon cancer cell lines examined. HCT116 and SW48 cells showed a lack of THTR2 mRNA expression and methylation of its promoter, and DAC treatment induced its re-expression. In addition, the co-treatment with DAC and TSA increased THTR2 mRNA expression more markedly than DAC treatment in HCT116 and SW48 cells. In HT29 and SW480 cells that showed little methylation of THTR2 promoter, TSA treatment induced THTR2 mRNA expression markedly, but DAC treatment did not. In the 4 colon cancer cells examined, THTR2 mRNA expression is down-regulated by DNA methylation and/or histone deacetylation.
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PMID:Different involvement of DNA methylation and histone deacetylation in the expression of solute-carrier transporters in 4 colon cancer cell lines. 2238 14

Unprecedented progress continues to be made in the treatment strategies for the myelodysplastic syndromes (MDS). This review provides an introduction to DNA methyltransferase inhibitors. These agents include 5-azacytidine (azacitidine; AZA) and 5-aza-2'- deoxycytidine (decitabine; DAC). In particular, AZA was shown for the first time to significantly prolong the life expectancy of high-risk MDS patients in international multicenter clinical studies. The selection of responders and assessment of the long-term efficacy warrant further study.
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PMID:Utility of DNA methyltransferase inhibitors for the treatment of myelodysplastic syndromes. 2257 98

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