Insights into GATA-1-Mediated Gene Activation versus Repression via Genome-wide Chromatin Occupancy Analysis

Yu, Ming; Riva, Laura; Xie, Huafeng; Schindler, Yocheved L.; Moran, Theodore H.; Cheng, Yong; Yu, Duonan; Hardison, Ross C.; Weiss, Mitchell J.; Orkin, Stuart H.; Bernstein, B; Fraenkel, Ernest; Cantor, Alan B.

doi:10.1016/j.molcel.2009.11.002

Cited by 288 publications

(378 citation statements)

References 61 publications

(56 reference statements)

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“…10,12 Our results also validate the finding that CDC6 may be a real target of GATA1, as revealed by genome-wide chromatin occupancy data in mouse cells. 21 Ectopic expression of GATA1 results in increased levels of cdc6, not only in primary hematopoietic progenitors, but also in heterologous 293T cells. This may be somewhat surprising, as GATA1 transcriptional activity is functional in cells distant from the erythro-megakaryocytic lineages, not only on the exogenous reporter construct, but also on the endogenous locus.…”

Section: Discussionmentioning

confidence: 99%

“…In fact, only a small fraction of the in vitro characterized binding sites are actually occupied, according to various independent genome-wide occupancy analysis. [21][22][23] These reports have defined with further precision GATA1 preferred binding motif and unveiled a rich collection of targets that suggests a more global action of GATA 1 that would affect not only the lineage-specific program, but also cell processes such as signaling and cell cycle control.…”

Section: Cdc6 Has An Additional Important Rolementioning

confidence: 99%

“…19,20 GATA1 also cooperates with master hematopoietic regulator Scl/Tal1 at composite sites containing (CANNTG)-WGATAR sequences. 21,22 However, simple identification of putative single double, or composite GATA binding sequences, even when phylogenetically conserved, is a poor predictor of their use by GATA1. In fact, only a small fraction of the in vitro characterized binding sites are actually occupied, according to various independent genome-wide occupancy analysis.…”

Section: Cdc6 Has An Additional Important Rolementioning

confidence: 99%

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CDC6 expression is regulated by lineage-specific transcription factor GATA1

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2012

Cell Cycle

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Section: Discussionmentioning

confidence: 99%

Section: Cdc6 Has An Additional Important Rolementioning

confidence: 99%

Section: Cdc6 Has An Additional Important Rolementioning

confidence: 99%

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CDC6 expression is regulated by lineage-specific transcription factor GATA1

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Calés

2012

Cell Cycle

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“…The free pool of MCL-1 in a low BIM context might inhibit apoptosis by neutralizing other proapoptotic factors such as BAX/BAK, tBID and PUMA that are expressed in preleukaemic cells and are capable to interact with MCL-1. 37 BIM expression is regulated at the transcriptional and translational level in many cell types. The EPO signalling pathway through ERK-mediated phosphorylation of BIM induces its proteasomal degradation in erythroid cells.…”

Section: α-Suz12mentioning

confidence: 99%

“…29,33,46,47 Recruitment of PRC2 by GATA-1 has been reported during normal erythroid differentiation. 37 Abnormal recruitment of PRCs by the oncogenic transcription factors PML-RARa 48 and PLZF-RARa 49 participates in leukaemic transformation. PRC2 might also associate with CG-rich sequences in genes devoid of DNA motifs for transcriptional activators in ES cells.…”

Section: α-Suz12mentioning

confidence: 99%

Epigenetic silencing of Bim transcription by Spi-1/PU.1 promotes apoptosis resistance in leukaemia

et al. 2013

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Deregulation of transcriptional networks contributes to haematopoietic malignancies. The transcription factor Spi-1/PU.1 is a master regulator of haematopoiesis and its alteration leads to leukaemia. Spi-1 overexpression inhibits differentiation and promotes resistance to apoptosis in erythroleukaemia. Here, we show that Spi-1 inhibits mitochondrial apoptosis in vitro and in vivo through the transcriptional repression of Bim, a proapoptotic factor. BIM interacts with MCL-1 that behaves as a major player in the survival of the preleukaemic cells. The repression of BIM expression reduces the amount of BIM-MCL-1 complexes, thus increasing the fraction of potentially active antiapoptotic MCL-1. We then demonstrate that Spi-1 represses Bim transcription by binding to the Bim promoter and by promoting the trimethylation of histone 3 on lysine 27 (H3K27me3, a repressive histone mark) on the Bim promoter. The PRC2 repressive complex of Polycomb is directly responsible for the deposit of H3K27me3 mark at the Bim promoter. SUZ12 and the histone methyltransferase EZH2, two PRC2 subunits bind to the Bim promoter at the same location than H3K27me3, distinct of the Spi-1 DNA binding site. As Spi-1 interacts with SUZ12 and EZH2, these results indicate that Spi-1 modulates the activity of PRC2 without directly recruiting the complex to the site of its activity on the chromatin. Our results identify a new mechanism whereby Spi-1 represses transcription and provide mechanistic insights on the antiapoptotic function of a transcription factor mediated by the epigenetic control of gene expression. Cell Death and Differentiation (2013) 20, 1268-1278; doi:10.1038/cdd.2013.88; published online 12 July 2013Acute myeloid leukaemia (AML) develops through a multistep process driven by the progressive accumulation of mutations, leading to deregulation of cell proliferation and differentiation. Most frequently, abnormalities in cell differentiation are the result of loss-of-function mutations in lineage-specific transcription factors, whereas alterations in cell proliferation are associated with gain-of-function mutations in signalling pathways. 1 Mutations that target components of the spliceosomal machinery 2 and epigenetic regulators 3 have been identified as well, although their functional consequences in leukaemogenesis are not clear. To date, AML treatments are largely determined by the nature of the identified mutated proteins and a major challenge is to design molecules that can target each molecular alteration contributing to transformation. For that, understanding the molecular mechanisms controlled by an oncoprotein is one essential step. We have previously described a mouse model of erythroleukaemia (Spi-1 transgenic mice) that recapitulates the multistep development of human AML. 4 Spi-1 is a master transcription factor of haematopoiesis that is also involved in pre-mRNA splicing regulation. 5 During the preleukaemic stage of the disease, the differentiation blockage of the erythroid progenitors is the first oncogenic mark assoc...

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Hit and Run Transcriptional Repressors Are Difficult to Catch in the Act

et al. 2019

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Transcriptional silencing may not necessarily depend on the continuous residence of a sequence‐specific repressor at a control element and may act via a “hit and run” mechanism. Due to limitations in assays that detect transcription factor (TF) binding, such as chromatin immunoprecipitation followed by high‐throughput sequencing (ChIP‐seq), this phenomenon may be challenging to detect and therefore its prevalence may be underappreciated. To explore this possibility, erythroid gene promoters that are regulated directly by GATA1 in an inducible system are analyzed. It is found that many regulated genes are bound immediately after induction of GATA1 but the residency of GATA1 decreases over time, particularly at repressed genes. Furthermore, it is shown that the repressive mark H3K27me3 is seldom associated with bound repressors, whereas, in contrast, the active (H3K4me3) histone mark is overwhelmingly associated with TF binding. It is hypothesized that during cellular differentiation and development, certain genes are silenced by repressive TFs that subsequently vacate the region. Catching such repressor TFs in the act of silencing via assays such as ChIP‐seq is thus a temporally challenging prospect. The use of inducible systems, epitope tags, and alternative techniques may provide opportunities for detecting elusive “hit and run” transcriptional silencing. Also see the video abstract here https://youtu.be/vgrsoP_HF3g.

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Insights into GATA-1-Mediated Gene Activation versus Repression via Genome-wide Chromatin Occupancy Analysis

Cited by 288 publications

References 61 publications

CDC6 expression is regulated by lineage-specific transcription factor GATA1

CDC6 expression is regulated by lineage-specific transcription factor GATA1

Epigenetic silencing of Bim transcription by Spi-1/PU.1 promotes apoptosis resistance in leukaemia

Hit and Run Transcriptional Repressors Are Difficult to Catch in the Act

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