Cooperativity between DNA Methyltransferases in the Maintenance Methylation of Repetitive Elements

Liang, Gangning; Chan, Matilda F.; Tomigahara, Yoshitaka; Tsai, Yvonne; Gonzales, Felicidad A.; Li, En; Laird, Peter W.; Jones, Peter A.

doi:10.1128/mcb.22.2.480-491.2002

Cited by 511 publications

(385 citation statements)

References 30 publications

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“…4 Genomic methylation patterns may be established through cooperation among these three DNMTs. 39,40 Moreover, studies have indicated that DNMT expression is coordinated in many malignancies, 12 and DNMTs have different expression levels in variable tumors or in a tissue-specific manner. 12,13 Therefore, it is hypothesized that other DNMTs are required in silencing E-cadherin in MEC.…”

Section: Discussionmentioning

confidence: 99%

DNA methyltransferase 1 expression and promoter methylation of E‐cadherin in mucoepidermoid carcinoma

Shieh

Shiah

Jeng

et al. 2005

Cancer

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Cervical neoplasia is attributed to a persistent Human Papilloma Virus infection. The Pap smear being the mainstay of cervical cancer screening in low‐resource settings, we studied the nonclassical features which might indicate HPV infection. These included abortive koilocytes, mild dyskeratosis, parakeratosis, mild nuclear hyperchromasia, bi/multinucleation, measles cells, and keratohyaline‐like granules. Two hundred and eight women with a satisfactory Pap smear and a Hybrid Capture II test were compared against the “HPV Gold Standard” for validation of the nonclassical signs. This was defined as one with any/all of the following: definite HPV‐related lesions on Pap smear (LSIL and above), hrHPV positivity, and CIN I, or above on histology. The highest PPV and NPV were achieved by bi/multinucleation and mild nuclear hyperchromasia, respectively. The mean number of nonclassical signs for HPV Gold Standard‐positive and ‐negative groups was 5.52 and 3.12 per smear, respectively (P < 0.0005). Abortive koilocytes, mild dyskeratosis, mild nuclear hyperchromasia, bi/multinucleation, parakeratosis, and diffuse keratohyaline granules had the best correlation with the gold standard (P < 0.05). Addition of nonclassical signs to established intraepithelial lesions on Pap smear increased the sensitivity from 52.31to 59.10% and reduced the specificity from 100 to 98%. To maximize the benefit from grouping of these signs, various combinations were studied. The best was: abortive koilocytes, mild nuclear hyperchromasia, and bi/multinucleation. Another was abortive koilocytes, mild nuclear hyperchromasia, bi/multinucleation, and mild dyskeratosis. In conclusion, these signs proved useful for identifying HPV infection. Population‐based studies are required to corroborate our findings. Diagn. Cytopathol. 2010;38:645–651. © 2009 Wiley‐Liss, Inc.

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Section: Discussionmentioning

confidence: 99%

DNA methyltransferase 1 expression and promoter methylation of E‐cadherin in mucoepidermoid carcinoma

Shieh

Shiah

Jeng

et al. 2005

Cancer

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“…Genetic and biochemical analyses have shown that double knockout of DNMT1 and DNMT3b diminishes most of the genomic methylation while single knock-out has limited effect on DNA methylation pattern [30]; that DNMT1 alone is insufficient to restore DNA methylation after 5-azaCdR treatment [31] and that DNMT1 can form complex with DNMT3A and 3B [32] (Fig. 1).…”

Section: Dna Cytosine-5-methyltrasferase3 Likementioning

confidence: 99%

Dynamic and reversibility of heterochromatic gene silencing in human disease

et al. 2005

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In eukaryotic organisms cellular fate and tissue specific gene expression are regulated by the activity of proteins known as transcription factors that by interacting with specific DNA sequences direct the activation or repression of target genes. The post genomic era has shown that transcription factors are not the unique key regulators of gene expression. Epigenetic mechanisms such as DNA methylation, post-translational modifications of histone proteins, remodeling of nucleosomes and expression of small regulatory RNAs also contribute to regulation of gene expression, determination of cell and tissue specificity and assurance of inheritance of gene expression levels. The relevant contribution of epigenetic mechanisms to a proper cellular function is highlighted by the effects of their deregulation that cooperate with genetic alterations to the development of various diseases and to the establishment and progression of tumors.

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“…Because the DNMT1 hypomorphic cell line had presumably lost the ability to interact with PCNA and therefore might not be able to fully methylate its target sequences during S phase, it might be anticipated that the cells would show an increased level of hemimethylation after depletion of WT DNMT1. We therefore measured the level of hemimethylation within three regions of the p16 locus by using an assay we have previously described that couples methylation-sensitive restriction enzyme digestion with bisulfite treatment and methylation-sensitive single-nucleotide primer extension (Ms-SNuPE) analysis (20,21). The ability of the assay to detect hemimethylation at three sites [within the 5Ј region of the p16 gene (H1), at a CpG-poor site (H2), and at a CpG-rich site in intron 1 (H3)] was first validated by using T24 cells after 24-h treatment with 5-aza-CdR (20).…”

Section: Dnmt1 Rnaimentioning

confidence: 99%

Identification of DNMT1 (DNA methyltransferase 1) hypomorphs in somatic knockouts suggests an essential role for DNMT1 in cell survival

Egger

Jeong

Escobar

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

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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 DNMT1͞DNMT3b doubleknockout 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. DNA methylation ͉ epigeneticT he biological roles of the major mammalian DNA methyltransferase (Dnmt), DNMT1, have been enigmatic. Although gene-targeting studies in mice have clearly demonstrated an essential function of Dnmt1 in embryonic development, cell survival, and tumorigenesis (1), there have been controversial reports regarding the function of this enzyme in human cancer cells. In mice, Dnmt1 has been implicated in maintaining the majority of bulk DNA methylation, differentiation of ES cells, and imprinting (2, 3). Furthermore, deletion of Dnmt1 in mouse embryonic fibroblasts caused a decrease in genomic methylation, p53-dependent apoptosis, and deregulation of transcription (4). Heterozygosity for Dnmt1 in combination with administration of the DNMT inhibitor 5-aza-2Јdeoxycytidine (5-aza-CdR) greatly reduced the number of polyps in a mouse model for intestinal neoplasia (5).A series of RNAi experiments for DNMT1 have been described for various human cancer cell lines, which have shown apparently inconsistent results in regard to DNA methylation of tumor suppressor genes (6-10). The differences might be attributed to the techniques used but also to distinct sensitivities of individual cell lines (10). Furthermore, RNAi may not cause a complete depletion of the protein, so residual protein might still be available and capable of maintaining DNA methylation. Rhee et al. (11,12) generated a widely used series of HCT116 colon cancer cells with homozygous deletions for DNMT1 (DNMT1 Ϫ/Ϫ ) (11), DNMT3b (DNMT3b Ϫ/Ϫ ) (12), or both DNMT1 and DNMT3b (12) [double knockout (DKO)]. Surprisingly, somatic disruption of DNMT1 resulted in only a 20% decrease in overall genomic methylation with no discernible changes i...

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Cooperativity between DNA Methyltransferases in the Maintenance Methylation of Repetitive Elements

Cited by 511 publications

References 30 publications

DNA methyltransferase 1 expression and promoter methylation of E‐cadherin in mucoepidermoid carcinoma

DNA methyltransferase 1 expression and promoter methylation of E‐cadherin in mucoepidermoid carcinoma

Dynamic and reversibility of heterochromatic gene silencing in human disease

Identification of DNMT1 (DNA methyltransferase 1) hypomorphs in somatic knockouts suggests an essential role for DNMT1 in cell survival

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