Lymphoid cell growth and transformation are suppressed by a key regulatory element of the gene encoding PU.1

Rosenbauer, Frank; Owens, Bronwyn M.; Yu, Li; Tumang, Joseph R.; Steidl, Ulrich; Kutok, Jeffery L.; Clayton, Linda K.; Wagner, Katharina; Scheller, Marina; Iwasaki, Hiromi; Liu, Chunhui; Hackanson, Björn; Akashi, Koichi; Leutz, Achim; Rothstein, Thomas L.; Plass, Christoph; Tenen, Daniel G.

doi:10.1038/ng1679

Cited by 204 publications

(217 citation statements)

References 50 publications

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“…Recent data has shown that deletion of PU.1 in B cells can induce a B-2 to B-1 cell switch, accompanied by loss of B220 expression (27). In addition, deletion of a regulatory element upstream of the PU.1 gene eliminates B-2 cells, but enhances the B-1 cell population (58). Our data indicate that pro-B cells ectopically expressing Spi-C have dramatically reduced levels of B220 on their surface, which could suggest that these cells may be switching to a B-1 cell phenotype.…”

Section: Discussionmentioning

confidence: 99%

Spi-C Has Opposing Effects to PU.1 on Gene Expression in Progenitor B Cells

Schweitzer

Huang

Kamath

et al. 2006

The Journal of Immunology

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The Ets transcription factor Spi-C, expressed in B cells and macrophages, is closely related to PU.1 and has the ability to recognize the same DNA consensus sequence. However, the function of Spi-C has yet to be determined. The purpose of this study is to further examine Spi-C activity in B cell development. First, using retroviral vectors to infect PU.1−/− fetal liver progenitors, Spi-C was found to be inefficient at inducing cytokine-dependent proliferation and differentiation of progenitor B (pro-B) cells or macrophages relative to PU.1 or Spi-B. Next, Spi-C was ectopically expressed in fetal liver-derived, IL-7-dependent pro-B cell lines. Wild-type (WT) pro-B cells ectopically expressing Spi-C (WT-Spi-C) have several phenotypic characteristics of pre-B cells such as increased CD25 and decreased c-Kit surface expression. In addition, WT-Spi-C pro-B cells express increased levels of IgH sterile transcripts and reduced levels of expression and transcription of the FcγRIIb gene. Gel-shift analysis suggests that Spi-C, ectopically expressed in pro-B cells, can bind PU.1 consensus sites in the IgH intronic enhancer and FcγRIIb promoter. Transient transfection analysis demonstrated that PU.1 functions to repress the IgH intronic enhancer and activate the FcγRIIb promoter, while Spi-C opposes these activities. WT-Spi-C pro-B cells have reduced levels of dimethylation on lysine 9 of histone H3 within the IgH 3′ regulatory region, indicating that Spi-C can contribute to removal of repressive features in the IgH locus. Overall, these studies suggest that Spi-C may promote B cell differentiation by modulating the activity of PU.1-dependent genes.

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Section: Discussionmentioning

confidence: 99%

Spi-C Has Opposing Effects to PU.1 on Gene Expression in Progenitor B Cells

Schweitzer

Huang

Kamath

et al. 2006

The Journal of Immunology

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“…This balance is tipped during commitment, with the silencing of the phase 1 regulatory genes and down-regulation of Kit, but only limited aspects of this process are understood. GATA-3, Runx1, and TCF-1 (or its relative LEF-1) eventually play roles in silencing expression of phase 1 regulatory genes encoding PU.1 and Bcl11a during commitment, as demonstrated by gain-and loss-offunction data (27,(36)(37)(38)(39) (Fig. 1B).…”

Section: T-cell Specification Grn Transitions At Commitment: a Distinctmentioning

confidence: 99%

Bcl11b and combinatorial resolution of cell fate in the T-cell gene regulatory network

Longabaugh

Zeng

Zhang

et al. 2017

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

147

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T-cell development from hematopoietic progenitors depends on multiple transcription factors, mobilized and modulated by intrathymic Notch signaling. Key aspects of T-cell specification network architecture have been illuminated through recent reports defining roles of transcription factors PU.1, GATA-3, and E2A, their interactions with Notch signaling, and roles of Runx1, TCF-1, and Hes1, providing bases for a comprehensively updated model of the T-cell specification gene regulatory network presented herein. However, the role of lineage commitment factor Bcl11b has been unclear. We use self-organizing maps on 63 RNA-seq datasets from normal and perturbed T-cell development to identify functional targets of Bcl11b during commitment and relate them to other regulomes. We show that both activation and repression target genes can be bound by Bcl11b in vivo, and that Bcl11b effects overlap with E2A-dependent effects. The newly clarified role of Bcl11b distinguishes discrete components of commitment, resolving how innate lymphoid, myeloid, and dendritic, and B-cell fate alternatives are excluded by different mechanisms.

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“…36,38,39 Conditional deletion of the PU.1 gene in adult bone marrow progenitors showed its requirement for both monocyte and lymphoid progeny whereas granulocyticlike cells were increased indicating that PU.1 may inhibit adult in vivo granulopoiesis at latter stages of development. 34,40 Similarly, PU.1 has only a minor function in advanced differentiation states of B cells 25,34,35,[41][42][43] and is not required in mature T cells. [44][45][46] Collectively the above-mentioned facts reveal an important and crucial role of PU.1 as a primary transcriptional determinant of hematopoietic cell fate with current evidence showing its substantial role in the cell fate control of HSC and progenitor populations rather than the maturation of terminally differentiated cells.…”

Section: Pu1 and Its Role In Hematopoiesismentioning

confidence: 99%

“…24,25,80,81,82 Targeted disruption of the URE in mice significantly reduces PU.1 expression and results in the development of acute myeloid leukemia with frequent cytogenetic aberrations. 24 The URE structure is dynamically regulated by chromatin loops associated with the chromatin remodeling regulator SATB1 bound directly to the URE.…”

Section: Gata-1 and Pu1 Levels Are Determinants Of Leukemogenesismentioning

confidence: 99%

“…Deletion of URE in the mouse has a detrimental effect on the PU.1 protein level reducing it to 20% of normal levels. 24,25 Various transcription factors can bind to the URE including PU.1 itself, Elf1, FLI-1, Runx-1 and C/EBP. 11,23,26,27 The URE regulates transcription of both sense as well as antisense non-coding transcripts and this provides an additional layer of modifying PU.1 activity via the regulation of protein translation.…”

Section: Pu1 and Its Role In Hematopoiesismentioning

confidence: 99%

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The role of PU.1 and GATA-1 transcription factors during normal and leukemogenic hematopoiesis

2010

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Hematopoiesis is coordinated by a complex regulatory network of transcription factors and among them PU.1 (Spi1, Sfpi1) represents a key molecule. This review summarizes the indispensable requirement of PU.1 during hematopoietic cell fate decisions and how the function of PU.1 can be modulated by protein-protein interactions with additional factors. The mutual negative regulation between PU.1 and GATA-1 is detailed within the context of normal and leukemogenic hematopoiesis and the concept of 'differentiation therapy' to restore normal cellular differentiation of leukemic cells is discussed.

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Lymphoid cell growth and transformation are suppressed by a key regulatory element of the gene encoding PU.1

Cited by 204 publications

References 50 publications

Spi-C Has Opposing Effects to PU.1 on Gene Expression in Progenitor B Cells

Spi-C Has Opposing Effects to PU.1 on Gene Expression in Progenitor B Cells

Bcl11b and combinatorial resolution of cell fate in the T-cell gene regulatory network

The role of PU.1 and GATA-1 transcription factors during normal and leukemogenic hematopoiesis

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