The Oncoprotein EVI1 and the DNA Methyltransferase Dnmt3 Co-Operate in Binding and De Novo Methylation of Target DNA

Senyuk, Vitalyi; Premanand, Kavitha; Xu, Peng; Qian, Zhijian; Nucifora, Giuseppina

doi:10.1371/journal.pone.0020793

Cited by 49 publications

(33 citation statements)

References 49 publications

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“…Development 139 (13) G9a (Gyory et al, 2004), Lsd1 ), Hdac2 (Yu et al, 2000), Prmt5 (Ancelin et al, 2006) Groucho family (Tle1 and Tle2) (Ren et al, 1999) and Irf4 (Gupta et al, 2001) Prdm2 H3K9 methlytransferase (Kim et al, 2003) p300 (Carling et al, 2004) Prdm2 homodimer (Huang et al, 1998), Rb1 (Buyse et al, 1995) and ER (Medici et al, 1999) Prdm3 p300 (Chakraborty et al, 2001), P/CAF, HDACs (Alliston et al, 2005), SuV39H1 (Cattaneo and Nucifora, 2008), Dnmt3a/b (Senyuk et al, 2011), Mbd3 (Spensberger et al, 2008), Uxt (McGilvray et al, 2007) and PRC (Yoshimi et al, 2011) CtBP (Izutsu et al, 2001;Palmer et al, 2001), Gata1 (Laricchia-Robbio et al, 2006), Jnk (Kurokawa et al, 2000;Spensberger et al, 2008), Runx1 (Senyuk et al, 2007), Smad1/2 (Alliston et al, 2005), Smad3 (Kurokawa et al, 1998) HDACs and p300 (Takahata et al, 2009) Ppar /Ppar , SKI (Takahata et al, 2009), Smad3 (Warner et al, 2007), CtBP , C/EBP ) and Ppargc1 /Ppargc1 (Seale et al, 2007) Bhlhb5, basic helix-loop-helix domain-containing class B5; C/EBP , (CCAAT/enhancer-binding protein ); CtBP, C-terminal binding protein; Dnmt, DNA methyltransferase; ER, oestrogen receptor; Gfi1, growth factor independent 1; HDAC, histone deacetylases; Irf4, interferon regulatory factor 4; Jnk, c-Jun N-terminal kinase; Lsd1, lysinespecific demethylase 1; Mbd3, methyl-CpG binding domain protein 3; Pu.1, SFFV proviral integration 1; P/CAF, p300/CBP-associated factor; Ppar, peroxisomeproliferator-activated receptor; Ppargc1, Ppar co-activator 1 ; Prc, Polycomb repressive complex; Prmt5, protein methyltransferase 5; Rb1, retinoblastoma 1; Runx1, runt-related transcription factor; Smad, MAD homologue; Tle, transducin-like enhancer of split; Uxt, ubiquitously transcribed tetratricopeptide r...…”

Section: Reviewmentioning

confidence: 99%

The Prdm family: expanding roles in stem cells and development

2012

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SummaryMembers of the Prdm family are characterized by an Nterminal PR domain that is related to the SET methyltransferase domain, and multiple zinc fingers that mediate sequence-specific DNA binding and protein-protein interactions. Prdm factors either act as direct histone methyltransferases or recruit a suite of histone-modifying enzymes to target promoters. In this way, they function in many developmental contexts to drive and maintain cell state transitions and to modify the activity of developmental signalling pathways. Here, we provide an overview of the structure and function of Prdm family members and discuss the roles played by these proteins in stem cells and throughout development.

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Section: Reviewmentioning

confidence: 99%

The Prdm family: expanding roles in stem cells and development

2012

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“…Because we recently found that EVI1 stimulates de novo DNA methylation in vivo (36,37), we evaluated the methylation status of the regulatory region of miR-9-3 in BM cells infected with the vector or EVI1. Direct sequencing of bisulfite-converted genomic DNA 10 d after infection clearly showed that EVI1 induces an increase of de novo DNA methylation in this miR-9-3 region.…”

Section: Evi1 Represses Mir-9 Expression By Hypermethylation Of the Pmentioning

confidence: 99%

Critical role of miR-9 in myelopoiesis and EVI1-induced leukemogenesis

Senyuk

Zhang

Liu

et al. 2013

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

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MicroRNA-9 (miR-9) is emerging as a critical regulator of organ development and neurogenesis. It is also deregulated in several types of solid tumors; however, its role in hematopoiesis and leukemogenesis is not yet known. Here we show that miR-9 is detected in hematopoietic stem cells and hematopoietic progenitor cells, and that its expression increases during hematopoietic differentiation. Ectopic expression of miR-9 strongly accelerates terminal myelopoiesis and promotes apoptosis in vitro and in vivo. Conversely, in hematopoietic progenitor cells, the inhibition of miR-9 with a miRNA sponge blocks myelopoiesis. Ecotropic viral integration site 1 (EVI1), required for normal embryogenesis, is considered an oncogene because its inappropriate up-regulation induces malignant transformation in solid and hematopoietic cancers. Here we show that EVI1 binds to the promoter of miR-9-3, leading to DNA hypermethylation of the promoter and repression of miR-9. Moreover, miR-9 expression reverses a myeloid differentiation block that is induced by EVI1. Our findings indicate that EVI1, when inappropriately expressed, delays or blocks myeloid differentiation at least in part by DNA hypermethylation and down-regulation of miR-9. It was reported that Forkhead box class O genes (FoxOs) inhibit myeloid differentiation and prevent differentiation of leukemia-initiating cells. Here we identify both FoxO1 and FoxO3 as direct targets of miR-9 in hematopoietic cells and find that up-regulation of FoxO3 inhibits miR-9-induced myelopoiesis. These results reveal a unique role of miR-9 in myelopoiesis and in the pathogenesis of EVI1-induced myeloid neoplasms and provide insights into the epigenetic regulation of miR9 in tumorigenesis.

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“…5,6 EVI1 recruits a variety of transcriptional and epigenetic regulators, such as CTBP (C-terminalbinding protein), CBP (CREB-binding protein), P/CAF (P300/CBPassociated factor), HDAC (histone deacetylase), DNMT (DNAmethyltransferase), MBD3, or histone methyltransferases, suggesting a role in the control of gene expression. [7][8][9][10][11][12][13] Human EVI1-mediated disease can partly be recapitulated using in vitro and in vivo models. Aberrant expression of EVI1 in mouse BM precursors in vivo causes a disease which resembles myelodysplastic syndrome (MDS).…”

Section: Introductionmentioning

confidence: 99%