LSH and G9a/GLP complex are required for developmentally programmed DNA methylation

Myant, Kevin; Termanis, Ausma; Sundaram, Arvind; Boe, Tristin; Li, Chao; Merusi, Cara; Burrage, Joe; Heras, Jose I. de las; Stancheva, Irina

doi:10.1101/gr.108498.110

Cited by 115 publications

(140 citation statements)

References 48 publications

(99 reference statements)

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“…Changes in H3K9 methylation in SINEs and LINE-1 in developing PGCs are similar to those in Glp KO ESCs, which suggests that active repression of GLP expression triggers global H3K9 demethylation in developing PGCs. G9a is an essential partner of GLP in the H3K9 methylation complex, and it is required for the maintenance in ESCs of DNA methylation in the promoter regions of germline-specific genes and the Rhox gene cluster, which are expressed in developing PGCs (Daggag et al, 2008;Dong et al, 2008;Myant et al, 2011). Considering these findings, we speculate that the repression of GLP expression establishes the primed state of transcription of germline-specific genes in developing PGCs, allowing germ cells derived from PGCs to fully activate germlinespecific genes during further differentiation.…”

Section: H3k9 Demethylation In Migrating Pgcsmentioning

confidence: 99%

A replication-dependent passive mechanism modulates DNA demethylation in mouse primordial germ cells

et al. 2013

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SUMMARYGermline cells reprogramme extensive epigenetic modifications to ensure the cellular totipotency of subsequent generations and to prevent the accumulation of epimutations. Notably, primordial germ cells (PGCs) erase genome-wide DNA methylation and H3K9 dimethylation marks in a stepwise manner during migration and gonadal periods. In this study, we profiled DNA and histone methylation on transposable elements during PGC development, and examined the role of DNA replication in DNA demethylation in gonadal PGCs. CpGs in short interspersed nuclear elements (SINEs) B1 and B2 were substantially demethylated in migrating PGCs, whereas CpGs in long interspersed nuclear elements (LINEs), such as LINE-1, were resistant to early demethylation. By contrast, CpGs in both LINE-1 and SINEs were rapidly demethylated in gonadal PGCs. Four major modifiers of DNA and histone methylation, Dnmt3a, Dnmt3b, Glp and Uhrf1, were actively repressed at distinct stages of PGC development. DNMT1 was localised at replication foci in nascent PGCs, whereas the efficiency of recruitment of DNMT1 into replication foci was severely impaired in gonadal PGCs. Hairpin bisulphite sequencing analysis showed that strand-specific hemi-methylated CpGs on LINE-1 were predominant in gonadal PGCs. Furthermore, DNA demethylation in SINEs and LINE-1 was impaired in Cbx3-deficient PGCs, indicating abnormalities in G1 to S phase progression. We propose that PGCs employ active and passive mechanisms for efficient and widespread erasure of genomic DNA methylation.

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Section: H3k9 Demethylation In Migrating Pgcsmentioning

confidence: 99%

A replication-dependent passive mechanism modulates DNA demethylation in mouse primordial germ cells

et al. 2013

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“…Interestingly, the chromatin remodeler LSH interacts with G9a to establish the silencing of many genes in mESCs (50). Because LSH is also required for the silencing of retrotransposons, G9a may establish proviral silencing in a pathway that also involves chromatin remodeling.…”

Section: Suv39h1 and Suv39h2 Are Not Required For Silencing Of Newlymentioning

confidence: 99%

Lysine methyltransferase G9a is required for de novo DNA methylation and the establishment, but not the maintenance, of proviral silencing

Leung

Dong²,

Maksakova³

et al. 2011

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

115

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Methylation on lysine 9 of histone H3 (H3K9me) and DNA methylation play important roles in the transcriptional silencing of specific genes and repetitive elements. Both marks are detected on class I and II endogenous retroviruses (ERVs) in murine embryonic stem cells (mESCs). Recently, we reported that the H3K9-specific lysine methyltransferase (KMTase) Eset/Setdb1/KMT1E is required for H3K9me3 and the maintenance of silencing of ERVs in mESCs. In contrast, G9a/Ehmt2/KMT1C is dispensable, despite the fact that this KMTase is required for H3K9 dimethylation (H3K9me2) and efficient DNA methylation of these retroelements. Transcription of the exogenous retrovirus (XRV) Moloney murine leukemia virus is rapidly extinguished after integration in mESCs, concomitant with de novo DNA methylation. However, the role that H3K9 KMTases play in this process has not been addressed. Here, we demonstrate that G9a, but not Suv39h1 or Suv39h2, is required for silencing of newly integrated Moloney murine leukemia virus-based vectors in mESCs. The silencing defect in G9a −/− cells is accompanied by a reduction of H3K9me2 at the proviral LTR, indicating that XRVs are direct targets of G9a. Furthermore, de novo DNA methylation of newly integrated proviruses is impaired in the G9a −/− line, phenocopying proviral DNA methylation and silencing defects observed in Dnmt3a-deficient mESCs. Once established, however, maintenance of silencing of XRVs, like ERVs, is dependent exclusively on the KMTase Eset. Taken together, these observations reveal that in mESCs, the H3K9 KMTase G9a is required for the establishment, but not for the maintenance, of silencing of newly integrated proviruses.epigenetics | covalent histone modification | long terminal repeat R etroviruses have colonized all classes of vertebrates and are responsible for a range of pathologies in mammals, including cancer in distantly related species and acquired immunodeficiency syndrome in humans. Although productive retroviral infection by a subset of retroviruses is cytopathic, proviral elements of the acuteand slow-transforming classes induce tumorigenesis by expressing viral oncogenes and perturbing the expression of cellular genes, respectively. Given the potential deleterious effects of retroviral infection, a number of cell autonomous pathways that act at the transcriptional or post-transcriptional stages of the retroviral replicative cycle have evolved to inhibit retroviral expression (1, 2).Retroviral vectors based on the exogenous retrovirus (XRV) Moloney murine leukemia virus (MLV), such as the MFG vector (3), have been used extensively in the laboratory and in the clinic as vehicles for gene delivery. In both settings, transcriptional silencing has proven to be a major impediment to stable/long-term proviral expression (1, 4), due in part to the presence of negative regulatory elements in the proviral LTR that are bound by transcriptional repressors (5, 6) and the binding of chromatin proteins, including histone H1 (7, 8) and macroH2A1 (9). MLV is repressed with parti...

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“…Mechanistically, together with histone methyltransferase G9a, LSH is critical for the normal development of mammals and is involved in the establishment and maintenance of DNA methylation [36]. Since apart from depositing of H3K9me2 [37], G9a and its partner modifier GLP also interact with DNA methyltransferases (DNMTs) and protect proper DNA methylation at certain loci [38], LSH might also directly interact with DNMTs and affect the patterns of DNA methylation in the cells.…”

Section: The Regulation Of Raf-mek-mapk Involving Interactions Betweementioning

confidence: 99%

RAF-MEK-MAPK Pathway Targeted by Tumor Suppression and Anticancer Therapeutic Agents

Zhang¹,

Zhou²,

T³

et al. 2017

J Mol Genet Med

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LSH and G9a/GLP complex are required for developmentally programmed DNA methylation

Cited by 115 publications

References 48 publications

A replication-dependent passive mechanism modulates DNA demethylation in mouse primordial germ cells

A replication-dependent passive mechanism modulates DNA demethylation in mouse primordial germ cells

Lysine methyltransferase G9a is required for de novo DNA methylation and the establishment, but not the maintenance, of proviral silencing

RAF-MEK-MAPK Pathway Targeted by Tumor Suppression and Anticancer Therapeutic Agents

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