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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)
The term epigenetic modification denotes reversible traits of gene expression that do not include alterations to the DNA sequence. These epigenetic alterations are responsible for chromatin structure stability, genome integrity, modulation of tissue-specific gene expression, embryonic development, genomic imprinting and X-chromosome inactivation in females. Epigenetic changes include reversible DNA methylation and histone acetylation or methylation. The modification of mammalian genomic DNA includes the methylation at the 5-position of the cytosine (C) residue within cytosine-guanine dinucleotides (CpG), resulting in the formation of 5-methylcytosine (m5C). Regulatory DNA sequences in vertebrates often have little or no methylation. The methylation of mammalian genomic DNA is catalyzed by DNA methyltransferases (DNMTs), which play a special role in the initiation of chromatin remodeling and gene expression regulation. The mammalian DNMTs are DNMT1,
DNMT3A
and DNMT3B, which together with accessory proteins, like DNMT3L, are responsible for methylation pattern acquisition during gametogenesis, embryogenesis and somatic tissue development. Reversible epigenetic alterations lead to selective utilization of genome information through the activation or inactivation of transcription of functional genes during gametogenesis, embryogenesis and cell differentiation. Recently, several disparate isoforms of DNMT1 were identified in human somatic and female and male germ cells. Recent advances in the investigation of
DNMT
function in epigenetic DNA changes have formed the basis of the understanding of various disorder etiopathogeneses, and as a result, have facilitated and enabled new therapies with respect to these diseases.
...
PMID:The role of mammalian DNA methyltransferases in the regulation of gene expression. 1634 Dec 72
Deficiency in
DNA methyltransferase
DNMT3B causes a recessive human disorder characterized by immunodeficiency, centromeric instability and facial anomalies (ICF) in association with defects in genomic methylation. The majority of ICF mutations are single amino acid substitutions in the conserved catalytic domain of DNMT3B, which are believed to impair its enzymatic activity directly. The establishment of intact genomic methylation patterns in development requires a fine regulation of the de novo methylation activity of the two related methyltransferases
DNMT3A
and DNMT3B by regulatory factors including DNMT3L which has a stimulatory effect. Here, we show that two DNMT3B mutant proteins with ICF-causing substitution (A766P and R840Q) displayed a methylation activity similar to the wild-type enzyme both in vitro and in vivo. However, their stimulation by DNMT3L was severely compromised due to deficient protein interaction. Our findings suggest that methylation defects in ICF syndrome may also result from impaired stimulation of DNMT3B activity by DNMT3L or other unknown regulatory factors as well as from a weakened basal catalytic activity of the mutant DNMT3B protein per se.
...
PMID:Mutations in DNA methyltransferase DNMT3B in ICF syndrome affect its regulation by DNMT3L. 1654 61
DNA CpG methylation can cooperate with histone H3 lysine 9 (H3-K9) methylation in heterochromatin formation and gene silencing. Trimethylation of H3-K9 by the recently identified euchromatic histone methyltransferase SETDB1/ESET may be responsible for transcriptional repression of certain promoters. Here, we show that SETDB1 associates with endogenous
DNA methyltransferase
activity. SETDB1 interacts with the de novo DNA methyltransferases
DNMT3A
and DNMT3B but not with the maintenance methyltransferase DNMT1. The interaction of SETDB1 with
DNMT3A
was further characterized and confirmed by in vivo and in vitro interaction studies. A direct interaction of the two proteins occurs through the N terminus of SETDB1 and the plant homeodomain of
DNMT3A
. Co-expression of SETDB1 and
DNMT3A
was essential for repression of reporter gene expression in a Gal4-based tethering assay and resulted in their recruitment to the artificial promoter. We further demonstrate that the CpG-methylated promoters of the endogenous p53BP2 gene in HeLa cells and the RASSF1A gene in MDA-MB-231 cells are simultaneously occupied by both SETDB1 and
DNMT3A
proteins, which provides evidence for SETDB1 being at least partly responsible for H3-K9 trimethylation at the promoter of RASSF1A, a gene frequently silenced in human cancers. In summary, our data demonstrate the direct physical interaction and functional connection between the H3-K9 trimethylase SETDB1 and the
DNA methyltransferase
DNMT3A
and thus contribute to a better understanding of the complexity of the self-reinforcing heterochromatin machinery operating at silenced promoters.
...
PMID:The histone methyltransferase SETDB1 and the DNA methyltransferase DNMT3A interact directly and localize to promoters silenced in cancer cells. 1668 12
We have previously demonstrated that the expression of human ribosomal RNA genes (rDNA) in normal and cancer cells is differentially regulated by methylation of the promoter CpG islands. Furthermore, we showed that the methyl CpG-binding protein MBD2 plays a selective role in the methylation-mediated block in rDNA expression. Here, we analyzed the role of three functional mammalian DNA methyltransferases (DNMTs) in regulating the rDNA promoters activity. Immunofluorescence analysis and biochemical fractionation showed that all three DNMTs (DNMT1,
DNMT3A
, and DNMT3B) are associated with the inactive rDNA in the nucleolus. Although DNMTs associate with both methylated and unmethylated rDNA promoters, DNMT1 preferentially associates with the methylated genes. The rDNA primary transcript level was significantly elevated in DNMT1-/- or DNMT3B-/- human colon carcinoma (HCT116) cells. Southern blot analysis demonstrated a moderate level of rDNA promoter hypomethylation in DNMT1-/- cells and a dramatic loss of rDNA promoter methylation in double knockout cells. Transient overexpression of DNMT1 or DNMT3B suppressed the luciferase expression from both methylated and unmethylated pHrD-IRES-Luc, a reporter plasmid where the rDNA promoter drives luciferase expression. DNMT1-mediated suppression of the unmethylated promoter involves de novo methylation of the promoter, whereas histone deacetylase 2 cooperates with DNMT1 to inhibit the methylated rDNA promoter. Unlike DNMT1, both the wild type and catalytically inactive DNMT3B mutant can suppress rDNA promoter irrespective of its methylation status. DNMT3B-mediated suppression of the rDNA promoter also involves histone deacetylation. Treatment of HCT116 cells with Decitabine (a
DNMT
inhibitor) or trichostatin A (a histone deacetylase inhibitor) up-regulated endogenous rDNA expression. These inhibitors synergistically activated methylated pHrD-IRES-Luc, whereas they exhibited additive effects on the unmethylated promoter. These results demonstrate localization of DNMTs with the inactive rDNA in the nucleolus, the specific role of DNMT1 and DNMT3B in rDNA expression and the differential regulation of rDNA expression from the methylated and unmethylated rDNA promoters.
...
PMID:Role of DNA methyltransferases in regulation of human ribosomal RNA gene transcription. 2952 97
The DNMT3-like protein, DNMT3L, is required for germ line DNA methylation, although it is inactive as a
DNA methyltransferase
per se. Previous studies have shown that DNMT3L physically associates with the active de novo DNA methyltransferases,
DNMT3A
and DNMT3B, and stimulates their catalytic activities in a cell culture system. However, the mechanism by which DNMT3L stimulates de novo methylation remains unclear. Here, we have purified the full-length human
DNMT3A2
and DNMT3L proteins and determined unique conditions that allow for the proper reconstitution of the stimulation of
DNMT3A2
de novo methyltransferase activity by DNMT3L. These conditions include the use of buffers resembling physiological conditions and the preincubation of the two proteins. Under these conditions, maximal stimulation is reached at equimolar amounts of DNMT3L and
DNMT3A2
proteins, and the catalytic efficiency of
DNMT3A2
is increased up to 20-fold. Biochemical analysis revealed that whereas DNMT3L on its own does not significantly bind to the methyl group donor, S-adenosyl-L-methionine (SAM), it strongly increases the binding of SAM to
DNMT3A2
. DNA binding, on the contrary, was not appreciably improved. Analysis of
DNA methyltransferase
complexes in solution using size exclusion chromatography revealed that
DNMT3A2
forms large structures of heterogeneous sizes, whereas DNMT3L appears as a monomer. Binding of DNMT3L to
DNMT3A2
promotes a dramatic reorganization of
DNMT3A2
subunits and leads to the formation of specific complexes with enhanced
DNA methyltransferase
activity and increased SAM binding.
...
PMID:Reconstitution and mechanism of the stimulation of de novo methylation by human DNMT3L. 1682 25
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.
...
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
BRCA1 plays a pivotal role in the repair of DNA damage, especially following chemotherapy and ionising radiation. We were interested in the regulation of BRCA1 expression in acute myeloid leukaemia (AML), in particular in therapy-related forms (t-AML). Using real-time PCR and Western blot, we found that BRCA1 mRNA was expressed at barely detectable levels by normal peripheral blood granulocytes, monocytes and lymphocytes, whereas control BM-mononuclear cells and selected CD34+ progenitor cells displayed significantly higher BRCA1 expression (P=0.0003). Acute myeloid leukaemia samples showed heterogeneous BRCA1 mRNA levels, which were lower than those of normal bone marrows (P=0.0001). We found a high frequency of hypermethylation of the BRCA1 promoter region in AML (51/133 samples, 38%), in particular in patients with karyotypic aberrations (P=0.026), and in t-AML, as compared to de novo AML (76 vs 31%, P=0.0002). Examining eight primary tumour samples from hypermethylated t-AML patients, BRCA1 was hypermethylated in three of four breast cancer samples, whereas it was unmethylated in the other four tumours. BRCA1 hypermethylation correlated to reduced BRCA1 mRNA (P=0.0004), and to increased
DNA methyltransferase
DNMT3A
(P=0.003) expression. Our data show that reduced BRCA1 expression owing to promoter hypermethylation is frequent in t-AML and that this could contribute to secondary leukaemogenesis.
...
PMID:Reduced BRCA1 expression due to promoter hypermethylation in therapy-related acute myeloid leukaemia. 1704 56
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.
...
PMID:Long term low-dose arsenic exposure induces loss of DNA methylation. 1710 63
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.
...
PMID:[n-MSP detection of p16 gene demethylation and transcription in human multiple myeloma U266 cell line induced by arsenic trioxide]. 1749 May 27
Progesterone plays an important role in the regulation of normal endometrium function by binding to progesterone receptor (PR). In endometrial cancer, however, PR is always down-regulated. Previous reports showed that methylation in the promoter region of the PR gene may be responsible for PRB isoform repression. However, the CpG islands in the exon region of the PR gene are much richer and longer than in the promoter region. We hypothesize that methylation in the exon region may also take part in the down-regulation of the PR gene. The methylation status of the first exon of the PR gene in endometrial cell cultures was investigated. Aberrant methylation patterns were observed in the first exon of PR gene, and the methylation density is correlated with the differentiation of different types of endometrial cancer cells.
DNA methyltransferase
(
DNMT
) and histone deacetylase inhibitor 5-aza-2'-deoxycytidine (ADC), as well as trichostatin A (TSA), which reverses PR gene expression, were also studied. A combination of ADC and TSA resulted in synergistic effects in inducing PR expression, down-regulation of DNMT1 and
DNMT3A
, and could also have antigrowth effect on endometrial cancer cells by inducing apoptosis.
...
PMID:Down-regulation of the progesterone receptor by the methylation of progesterone receptor gene in endometrial cancer cells. 1755 66
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