EZH2 and Histone 3 Trimethyl Lysine 27 Associated with Il4 and Il13 Gene Silencing in TH1 Cells

Koyanagi, Madoka; Baguet, Aurélie; Martens, Joost H.A.; Margueron, Raphaël; Jenuwein, Thomas; Bix, Mark

doi:10.1074/jbc.m504766200

Cited by 137 publications

(115 citation statements)

References 25 publications

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“…T-bet directly activates IFNG and represses IL4 (Fig. 5E) (23,27) whereas GATA3 acts in the opposite manner to activate IL4 and represses IFNG (22,28). Although both factors are coexpressed in human Th1 cells, T-bet activity would appear to be dominant and these cells exhibit an expression pattern that can be recapitulated in murine T-cells by expression of T-bet in the absence of IFN␥.…”

Section: Discussionmentioning

confidence: 99%

“…Conversely, Th2 differentiation is accompanied by hyperacetylation of the IL4/IL5/ IL13 locus, dependent on GATA-3 (18,19,(23)(24)(25)(26). Recent murine studies also show that T-bet directly represses the expression of IL4 (23,27) and that GATA3 directly represses IFNG (22,28). This suggests that T-bet and GATA-3 may act to promote alternative pathways of T-cell differentiation by acting on the same target genes.…”

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confidence: 92%

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The transcription factors T-bet and GATA-3 control alternative pathways of T-cell differentiation through a shared set of target genes

Jenner

Townsend

Jackson³

et al. 2009

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

209

206

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Upon detection of antigen, CD4 ؉ T helper (Th) cells can differentiate into a number of effector types that tailor the immune response to different pathogens. Alternative Th1 and Th2 cell fates are specified by the transcription factors T-bet and GATA-3, respectively. Only a handful of target genes are known for these two factors and because of this, the mechanism through which T-bet and GATA-3 induce differentiation toward alternative cell fates is not fully understood. Here, we provide a genomic map of T-bet and GATA-3 binding in primary human T cells and identify their target genes, most of which are previously unknown. In Th1 cells, T-bet associates with genes of diverse function, including those with roles in transcriptional regulation, chemotaxis and adhesion. GATA-3 occupies genes in both Th1 and Th2 cells and, unexpectedly, shares a large proportion of targets with T-bet. Re-complementation of T-bet alters the expression of these genes in a manner that mirrors their differential expression between Th1 and Th2 lineages. These data show that the choice between Th1 and Th2 lineage commitment is the result of the opposing action of T-bet and GATA-3 at a shared set of target genes and may provide a general paradigm for the interaction of lineage-specifying transcription factors.Genomic map ͉ T helper differentiation ͉ cytokines

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 92%

The transcription factors T-bet and GATA-3 control alternative pathways of T-cell differentiation through a shared set of target genes

Jenner

Townsend

Jackson³

et al. 2009

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

209

206

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“…Indeed, histone acetylation of promoters has been correlated with transcriptional activation, although this correlation is not exclusive, and generally precedes transcription of many genes. For example, histone H3 can undergo a variety of post-transcriptional modifications: acetylation of K9 and K14 residues (H3-K9/K14 ac ), methylation of K4 and phosphorylation of S10 are associated with transcription, and dimethylation of K9 and tri-methylation of K9 or K27 are associated with silencing [52,53]. Chromatin immunoprecipitation assays (ChIP) using anti-H3-K9/ K14 ac on nuclei prepared from BM3.3 CD8 T cells stimulated by the full or partial agonist revealed that strong BM3.3 TCR engagement induces rapid acetylation of H3 (at 24 h) on promoter regions of genes characteristic of effector CD8 T cell differentiation, such as cd25, gzmB and Lta.…”

Section: Molecular Events Required For Overcoming Activation Thresholmentioning

confidence: 99%

Temporal cross‐talk between TCR and STAT signals for CD8 T cell effector differentiation

et al. 2006

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The strength and duration of signaling through surface receptors is a primary means of controlling cell fate decisions. In adaptive immunity, Ag‐initiated T cell stimulation is secondarily regulated by cytokines. We here summarize evidence for temporal control of a gene expression program in naive CD8 T cells. It is initiated in response to TCR engagement but relies on secondary signaling from cytokine receptors to be sustained and to allow development of full effector capacity. This mechanism permits cytokine receptor signaling to rescue abortive TCR signaling, such as that induced in response to weak or partial TCR agonists. Indeed, limiting TCR‐initiated signaling on the Ras/ERK pathway may be complemented by STAT activation. Thus, TCR‐ and cytokine‐driven activation of transcription factors and epigenetic modifications may act in concert in a temporally staggered process to establish the functional program of effector CD8 T cells. Based on gene expression profiling, molecular targets whose activation or inactivation may boost or dampen CD8 T cell effectors are also identified. Manipulation of these targets may, respectively, increase anti‐tumor responses or prevent graft‐versus‐host reactions.

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“…Biochemical studies have identified the existence of protein complexes that contain both H3K27-demethylase and H3K4-methyltransferase activities, which has led to speculation that at least in some circumstances, there may be a simultaneous reorganization of both repressive and permissive chromatin states at target promoters (Agger et al 2008). In fact, when examining the status of methylation modifications on nucleosomes, a mutually exclusive series of nonpermissive-such as H3K9me3 and H3K27me3-versus permissive-such as H3K4me2 and H3K4me3-marks has been observed in locus-specific studies of differentiated cell types (Koyanagi et al 2005;Mikkelsen et al 2007;Schoenborn et al 2007). However, these histone methylation patterns are not strictly created in an "all or none" fashion, as bivalent chromatin domains that contain both repressive and permissive modifications are found in pluripotent cells (Mikkelsen et al 2007).…”

mentioning

confidence: 99%

Coordinated but physically separable interaction with H3K27-demethylase and H3K4-methyltransferase activities are required for T-box protein-mediated activation of developmental gene expression

Miller¹,

Huang²,

Miazgowicz³

et al. 2008

Genes Dev.

134

181

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During cellular differentiation, both permissive and repressive epigenetic modifications must be negotiated to create cell-type-specific gene expression patterns. The T-box transcription factor family is important in numerous developmental systems ranging from embryogenesis to the differentiation of adult tissues. By analyzing point mutations in conserved sequences in the T-box DNA-binding domain, we found that two overlapping, but physically separable regions are required for the physical and functional interaction with H3K27-demethylase and H3K4-methyltransferase activities. Importantly, the ability to associate with these histone-modifying complexes is a conserved function for the T-box family. These novel mechanisms for T-box-mediated epigenetic regulation are essential, because point mutations that disrupt these interactions are found in a diverse array of human developmental genetic diseases.[Keywords: T-box proteins; T-bet; demethylase; methyltransferase; H3K27; H3K4] Supplemental material is available at http://www.genesdev.org.

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EZH2 and Histone 3 Trimethyl Lysine 27 Associated with Il4 and Il13 Gene Silencing in TH1 Cells

Cited by 137 publications

References 25 publications

The transcription factors T-bet and GATA-3 control alternative pathways of T-cell differentiation through a shared set of target genes

The transcription factors T-bet and GATA-3 control alternative pathways of T-cell differentiation through a shared set of target genes

Temporal cross‐talk between TCR and STAT signals for CD8 T cell effector differentiation

Coordinated but physically separable interaction with H3K27-demethylase and H3K4-methyltransferase activities are required for T-box protein-mediated activation of developmental gene expression

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