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)

DNA methylation is an important epigenetic mechanism of transcriptional control, which plays an essential role in maintaining cellular function. Role of one-carbon transfer agents/methyl donors namely folate, choline and methionine in DNA methylation has been the subject of extensive investigation. The methylation pattern of DNA is established during embryogenesis by DNA methyltransferase 3 (dnmt3) and is subsequently maintained by maintenance methylation activity of the enzyme DNA methyltransferase 1 (dnmt1). Ionizing radiation is known to extensively damage the DNA. Sufficient dietary availability of methyl donors is known to contribute towards one-carbon transfer mediated repair of damaged DNA where folate is involved in nucleotide base synthesis. In the present study, modification in activities of dnmt1 and dnmt3 by methyl donor starvation followed by gamma-irradiation was observed. Assays were based on the catalytic transfer of (3)H-methyl groups from S-adenosyl-L: -methionine to a DNA substrate. Experiments showed a dose and methyl donors starvation dependent attenuation in dnmt1 activity. Attenuation of dnmt1 activity was most significant for diet deprived of all the three-methyl donors. No significant change in nuclear or cytoplasmic dnmt3 activity was observed when either or all the three possible source of dietary methyl group supply were removed. Ionizing radiation and methyl donor deficiency were observed to act synergistically towards inhibiting dnmt1 activity. Present results suggested possibility of interaction among folate, methionine and choline deficiency to potentiate symptoms of ionizing radiation stress. These enzymatic modifications might contribute to altered DNA methylation after chronic feeding of methyl donor free diets followed by gamma irradiation. These results suggested that dietary availability of methyl donors and gamma-radiation stress might significantly alter the dnmt1 profile.
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PMID:Modulation of DNA methyltransferase profile by methyl donor starvation followed by gamma irradiation. 1685 92

DNA methylation is known to play an important role in gene transcription and alterations of methylation that contribute to the development of certain disorders such as cancer, immunodeficiency, and autoimmune diseases. We investigated the DNA methylation profiles in patients with atopic dermatitis (AD). Messenger RNA (mRNA) levels for DNA methyltransferase-1 (DNMT-1) in peripheral blood mononuclear cells (PBMC) were examined using a real-time quantitative polymerase chain reaction method. The levels of DNMT-1 mRNA were significantly lower in PBMC from the AD patients who had higher serum IgE levels compared with normal controls. Our observations suggest that suppression of DNMT-1 might be related to the pathogenesis of AD, especially in whom serum IgE level is high. This is the first report of DNMT-1 expression in AD patients.
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PMID:Expression of DNMT-1 in patients with atopic dermatitis. 1689 79

Cyclooxygenase-2 (COX-2) has been shown to play oncogenic roles during stepwise gastrocarcinogenesis, and its expression is correlated with Helicobacter pylori infection, tumor necrosis factor alpha-mediated nuclear factor (NF)-kappaB activation, and Wnt signaling. To examine COX-2 expression and the status of its regulatory factors, we examined 49 gastric cancers (GCs), 21 premalignant tissues, and 10 noncancerous gastric mucosa from residents of Dalian, China. Unexpectedly, it was found that COX-2 expression was infrequent in the gastric samples (18.8%, 15/80) regardless of the type of lesion or morphological phenotype. H pylori infection was detected in 19 of 35 tested GC cases. Tumor necrosis factor alpha expression, NF-kappaB nuclear translocation, or Wnt2 overexpression was observed in 56 (82.3%) of 68, 40 (50.0%) of 80, and 62 (77.5%) of 80 of the gastric tissue samples, respectively. Methylation-sensitive restriction enzyme digestion followed by polymerase chain reaction of COX-2 promoter regions revealed a remarkably high hypermethylation rate (100%, 20/20) among the COX-2-negative GCs, which was associated with the overexpression of DNA methyltransferase (DNMT) 1 (r = 0.587, P < .01). These results indicate that (1) in contrast to previous findings using other GC sources, our results show that COX-2 activity may not be a critical molecular event during GC formation, (2) the tumor-promoting effects of H pylori infection and Wnt and NF-kappaB activities may be mediated by COX-2-independent pathways, and (3) promoter hypermethylation is the major cause of COX-2 silencing in Dalian GCs, apparently because of increased expression of DNMTs (especially DNMT1). Consequently, a COX-2-oriented preventive or therapeutic strategy is not practical for Dalian GCs. The frequent COX-2 hypermethylation observed in Dalian GCs could have insightful epigenetic and epidemiologic implications.
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PMID:Infrequent COX-2 expression due to promoter hypermethylation in gastric cancers in Dalian, China. 1694 12

Previous studies have shown that DNA methyltransferase (Dnmt) 1 is required for maintenance of bulk DNA methylation and is essential for mouse development. However, somatic disruption of DNMT1 in the human cancer cell line HCT116 was not lethal and caused only minor decreases in methylation. Here, we report the identification of a truncated DNMT1 protein, which was generated by the disruption of DNMT1 in HCT116 cells. The truncated protein, which had parts of the regulatory N-terminal domain deleted but preserved the catalytic C-terminal domain, was present at different levels in all DNMT1 single-knockout and DNMT1/DNMT3b double-knockout cell lines tested and retained hemimethylase activity. DNMT1 RNAi resulted in decreased cell viability in WT and knockout cells and further loss of DNA methylation in DNMT1 knockout cells. Furthermore, we observed a delay in methylation after replication and an increase in hemimethylation of specific CpG sites in cells expressing the truncated protein. Remethylation studies after drug-induced hypomethylation suggest a putative role of DNMT1 in the de novo methylation of a subtelomeric repeat, D4Z4, which is lost in cells lacking full-length DNMT1. Our data suggest that DNMT1 might be essential for maintenance of DNA methylation, proliferation, and survival of cancer cells.
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PMID:Identification of DNMT1 (DNA methyltransferase 1) hypomorphs in somatic knockouts suggests an essential role for DNMT1 in cell survival. 1696 60

DNA methyltransferases (DNMTs) and 5-methyl-CpG-binding domain proteins (MBDs) are involved in the acquisition of parent-specific epigenetic modifications in human male and female germ cells. Reverse Northern blot analyses demonstrated sex-specific differences in mRNA expression for the maintenance DNMT1 and the de novo DNMT3A in developing testis and ovary. In fetal testis DNMT1 and DNMT3A expression peaked in mitotically arrested spermatogonia around 21 weeks gestation. In fetal ovary transcriptional upregulation of DNMT1 and DNMT3A occurred during a very brief period at 16 weeks gestation, when the oocytes proceeded through meiotic prophase. Fetal gonads showed several fold higher DNMT3A expression levels than fetal brain and adult tissues. The most abundant DNMT3A isoform in fetal testis and ovary was DNMT3A2, whereas in all other analyzed tissues DNMT3A1 predominated. The catalytically inactive DNMT3A3 isoform was also present at relatively high levels in developing gonads and may perform a regulatory function(s). In both male and female fetal gonads expression of genes for MBD2 and MBD4, which may be implicated in chromatin remodeling of methylated genomic DNA sequences, was tightly linked to DNMT expression. We propose that the sex-specific time windows for concomitant upregulation of DNMT1, DNMT3A, MBD2, and MBD4 are associated with prenatal remethylation of the human male and female germ line.
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PMID:Sex-specific windows for high mRNA expression of DNA methyltransferases 1 and 3A and methyl-CpG-binding domain proteins 2 and 4 in human fetal gonads. 1699 46

DNA methylation is a major determinant of epigenetic inheritance. DNA methyltransferase 1 (DNMT1) is the enzyme responsible for the maintenance of DNA methylation patterns during cell division, and deregulated expression of DNMT1 leads to cellular transformation. We show herein that AU-rich element/poly(U)-binding/degradation factor 1 (AUF1)/heterogeneous nuclear ribonucleoprotein D interacts with an AU-rich conserved element in the 3' untranslated region of the DNMT1 mRNA and targets it for destabilization by the exosome. AUF1 protein levels are regulated by the cell cycle by the proteasome, resulting in cell cycle-specific destabilization of DNMT1 mRNA. AUF1 knock down leads to increased DNMT1 expression and modifications of cell cycle kinetics, increased DNA methyltransferase activity, and genome hypermethylation. Concurrent AUF1 and DNMT1 knock down abolishes this effect, suggesting that the effects of AUF1 knock down on the cell cycle are mediated at least in part by DNMT1. In this study, we demonstrate a link between AUF1, the RNA degradation machinery, and maintenance of the epigenetic integrity of the cell.
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PMID:AUF1 cell cycle variations define genomic DNA methylation by regulation of DNMT1 mRNA stability. 1703 Jun 25

Reelin and glutamic acid decarboxylase 67 (GAD67) mRNAs and protein levels are substantially reduced in postmortem brains of patients with schizophrenia. Increasing evidence suggests that the observed down-regulation of reelin and GAD67 gene expression may be caused by dysfunction of the epigenetic regulatory mechanisms operative in cortical GABAergic interneurons. To explore whether human reelin and GAD67 mRNAs are coordinately regulated through DNA methylation-dependent mechanisms, we studied the effects of DNA methyltransferase inhibitors on reelin and GAD67 expression in NT-2 neuronal precursor cells. Competitive reverse transcription-polymerase chain reaction with internal standards was used to quantitate mRNA levels. The data showed that reelin and GAD67 mRNAs are induced in the same dose- and time-dependent manners. We further demonstrated that the activation of these two genes correlated with a reduction in DNA methyl-transferase activity and DNA methyltransferase 1 (DNMT1) protein levels. Time course Western blot analysis showed that DNMT1 protein down-regulation occurs temporally before the reelin and GAD67 mRNA increase. In addition, chromatin immunoprecipitation assays demonstrated that the activation of the reelin gene correlates with the dissociation of DNMT1 and methyl-CpG binding protein 2 (MeCP2) from the promoter, and an increased acetylation of histones H3 in the region. Together, our data strongly imply that human reelin and GAD67 genes are coordinately regulated through epigenetic mechanisms that include the action of DNMT1. Our study also suggests that negative regulation of the reelin gene involves methylation-dependent recruitment of DNMT1, MeCP2, and certain histone deacetylases, which most likely reduce the activity of the promoter by shifting the surrounding chromatin into a more compact state.
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PMID:DNA methyltransferase inhibitors coordinately induce expression of the human reelin and glutamic acid decarboxylase 67 genes. 1717 43

Arsenic ranks as the number one toxic environmental contaminant. In humans, arsenic exposure is associated with various forms of cancer, cardiovascular and skin diseases, neuropathies of the central nervous system, and genotoxic and immunotoxic effects. Although a well recognized human carcinogen, arsenic itself is not a potent mutagen and has been thought to act through epigenetic mechanisms that modify DNA methylation patterns, perhaps in conjunction with DNA-damaging agents. To develop preliminary support for a more thorough examination of this hypothesis, we have measured the effect of submicromolar and low-micromolar concentrations of arsenite on the methylation status of DNA and the biochemical reactions that regulate it. We find that arsenic causes the depletion of S-adenosylmethionine, the main cellular methyl donor, and represses the expression of the DNA methyltransferase genes DNMT1 and DNMT3A. Possibly as a consequence of these two complementary mechanisms, long-term exposure to arsenic results in DNA hypomethylation.
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PMID:Long term low-dose arsenic exposure induces loss of DNA methylation. 1710 63

Overexpression of DNA methyltransferases DNMT1, DNMT3a and DNMT3b has been reported in various cancers. However, physical binding of DNA methyltransferase (DNMT) to the hypermethylated promoter of tumor suppressor genes (TSGs) has never been demonstrated in tumor tissues. In addition, alteration of DNMT at the protein level has never been reported in the same series of cancer patients. By immunohistochemical analysis, we demonstrated that DNMT1, DNMT3a and DNMT3b proteins were highly expressed in a coordinate manner in lung tumors, particularly in smokers (P=0.037, by the Fisher exact test). Patients with DNMT1 overexpression had a trend of poorer prognosis than those without such overexpression, and this prognostic significance was apparent in squamous carcinoma (SQ) patients (P=0.041, by the log-rank test). Both DNMT1 and DNMT3b overexpressions correlated with hypermethylation in the TSG promoters, especially among smoking SQ patients (P=0.012). To further explore the molecular mechanisms between altered TSGs promoter methylation and overexpression of DNMTs protein, we performed a tissue chromatin-immunoprecipitation polymerase chain reaction assay for lung tumors and showed that the methylated FHIT, p16(INK4a) and RARbeta promoters were bound by both DNMT protein and methyl-CpG-binding protein 2. These data suggest that overexpression and strong binding of various DNMTs may result in promoter hypermethylation of multiple TSGs and ultimately lead to lung tumorigenesis and poor prognosis.
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PMID:Alteration of DNA methyltransferases contributes to 5'CpG methylation and poor prognosis in lung cancer. 1714 Jun 95

The study was purposed to investigate the effect of arsenic trioxide (As(2)O(3))- induced p16 gene demethylation by a sensitive and specific PCR-based method (nested-methylation specific PCR, n-MSP) and DNA sequencing for rapid analysis of the promoter demethylation status, and to explore the possible mechanism of the p16 gene demethylation in human multiple myeloma U266 cells induced by As(2)O(3). The methylation status of the p16 gene in U266 cell line before and after treatment with As(2)O(3) was detected by the nested-methylation specific PCR and DNA sequencing, the mRNA of p16, DNA methyltransferase (DNMT 1, DNMT3A and 3B) gene were determined by RT-PCR, and the induced growth inhibition of U266 cell was assayed by growth curve, MTT and CFU; the DNA content of U266 cells was analyzed by flow cytometry after being exposed to As(2)O(3). The results showed that (1) all cytosines in CpG dinucleotides in untreated U266 cell not were changed, while all cytosines in treated U266 cells with As(2)O(3) had been converted to thymidine. (2) p16 gene was not expressed in U266 cell line after methylation. As compared with the beta-actin, the expression of U266 cell p16 gene mRNA was increased to (0.22 +/- 0.10), (0.59 +/- 0.11), (0.68 +/- 0.09) after exposed to 0.5 micromol/L, 1.0 micromol/L and 2.0 micromol/L As(2)O(3) for 72 hours respectively. (3) As(2)O(3) could significantly down-regulate DNA methyltransferase 1 (DNMT 1), DNMT3A and DNMT3B gene at mRNA level in a dose-dependent manner. (4) U266 cells line grew slowly and arrested at G(0) - G(1) phase after treatment with three different concentrations of As(2)O(3). It is concluded that As(2)O(3) can activate and up-regulate the expression of p16 gene which inhibits the proliferation of U266 cell through inducing the G(0) - G(1) arrest by demethylation or/and by inhibiting DNMT 1, DNMT3A and 3B gene.
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PMID:[n-MSP detection of p16 gene demethylation and transcription in human multiple myeloma U266 cell line induced by arsenic trioxide]. 1749 May 27

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