Yoshihide Ueda scite author profile

These data demonstrate an evolutionarily conserved pathway between histone H3-K9 methylation and DNA methylation in mammals. While the Suv39h HMTases are required to direct H3-K9 trimethylation and Dnmt3b-dependent DNA methylation at pericentric repeats, DNA methylation at centromeric repeats occurs independent of Suv39h function. Thus, our data also indicate a more complex interrelatedness between histone and DNA methylation systems in mammals. Both methylation systems are likely to be important in reinforcing the stability of heterochromatic subdomains and thereby in protecting genome integrity.

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Establishment and Maintenance of Genomic Methylation Patterns in Mouse Embryonic Stem Cells by Dnmt3a and Dnmt3b

Chen

Ueda

Dodge

et al. 2003

Molecular and Cellular Biology

665

545

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We have previously shown that the DNA methyltransferases Dnmt3a and Dnmt3b carry out de novo methylation of the mouse genome during early postimplantation development and of maternally imprinted genes in the oocyte. In the present study, we demonstrate that Dnmt3a and Dnmt3b are also essential for the stable inheritance, or "maintenance," of DNA methylation patterns. Inactivation of both Dnmt3a and Dnmt3b in embryonic stem (ES) cells results in progressive loss of methylation in various repeats and single-copy genes. Interestingly, introduction of the Dnmt3a, Dnmt3a2, and Dnmt3b1 isoforms back into highly demethylated mutant ES cells restores genomic methylation patterns; these isoforms appear to have both common and distinct DNA targets, but they all fail to restore the maternal methylation imprints. In contrast, overexpression of Dnmt1 and Dnmt3b3 failed to restore DNA methylation patterns due to their inability to catalyze de novo methylation in vivo. We also show that hypermethylation of genomic DNA by Dnmt3a and Dnmt3b is necessary for ES cells to form teratomas in nude mice. These results indicate that genomic methylation patterns are determined partly through differential expression of different Dnmt3a and Dnmt3b isoforms.

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A Novel Dnmt3a Isoform Produced from an Alternative Promoter Localizes to Euchromatin and Its Expression Correlates with Activede Novo Methylation

Chen¹,

Ueda²,

Xie

et al. 2002

Journal of Biological Chemistry

325

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Previous studies have shown that the Dnmt3b gene encodes multiple variants via alternative splicing. However, only one form of Dnmt3a has been identified to date. We report here the discovery of a small form of Dnmt3a, denoted Dnmt3a2, from both human and mouse. The transcript encoding Dnmt3a2 is initiated from a downstream intronic promoter. As a result, the Dnmt3a2 protein lacks the N-terminal 223 (human) or 219 (mouse) amino acid residues of the full-length Dnmt3a. Recombinant Dnmt3a2 protein displayed similar cytosine methyltransferase activity as Dnmt3a in vitro. However, Dnmt3a and Dnmt3a2 exhibited strikingly different subcellular localization patterns. Unlike Dnmt3a, which was concentrated on heterochromatin, Dnmt3a2 displayed a localization pattern suggestive of euchromatin association. Dnmt3a2 is the predominant form in embryonic stem cells and embryonal carcinoma cells and can also be detected from testis, ovary, thymus, and spleen, whereas Dnmt3a is expressed at low levels ubiquitously. Comparison of human embryonal carcinoma cell lines with breast/ovarian cancer cell lines indicates that DNMT3A2 expression correlates with high de novo methylation activity. These findings suggest that Dnmt3a and Dnmt3a2 may have distinct DNA targets and different functions in development.

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Complete inactivation of DNMT1 leads to mitotic catastrophe in human cancer cells

et al. 2007

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Studies have shown that DNA (cytosine-5-)-methyltransferase 1 (DNMT1) is the principal enzyme responsible for maintaining CpG methylation and is required for embryonic development and survival of somatic cells in mice. The role of DNMT1 in human cancer cells, however, remains highly controversial. Using homologous recombination, here we have generated a DNMT1 conditional allele in the human colorectal carcinoma cell line HCT116 in which several exons encoding the catalytic domain are flanked by loxP sites. Cre recombinase-mediated disruption of this allele results in hemimethylation of approximately 20% of CpG-CpG dyads in the genome, coupled with activation of the G2/M checkpoint, leading to arrest in the G2 phase of the cell cycle. Although cells gradually escape from this arrest, they show severe mitotic defects and undergo cell death either during mitosis or after arresting in a tetraploid G1 state. Our results thus show that DNMT1 is required for faithfully maintaining DNA methylation patterns in human cancer cells and is essential for their proliferation and survival.

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Yoshihide Ueda

Suv39h-Mediated Histone H3 Lysine 9 Methylation Directs DNA Methylation to Major Satellite Repeats at Pericentric Heterochromatin

Establishment and Maintenance of Genomic Methylation Patterns in Mouse Embryonic Stem Cells by Dnmt3a and Dnmt3b

A Novel Dnmt3a Isoform Produced from an Alternative Promoter Localizes to Euchromatin and Its Expression Correlates with Activede Novo Methylation

Complete inactivation of DNMT1 leads to mitotic catastrophe in human cancer cells

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