Project description:Developmental transcription factors act in networks, but how these networks achieve cell- and tissue specificity is still poorly understood. We here explored pre-B-cell leukemia homeobox 1 (PBX1) in adult neurogenesis combining genomic, transcriptomic, and proteomic approaches. ChIP-Seq analysis uncovered PBX1 binding to a wide range of different genes. Integration of PBX1 ChIP-seq with ATAC-seq data predicted interaction partners, which were subsequently validated by mass-spectrometry. Spatial transcriptomics revealed distinct temporal expression dynamics of Pbx1 and interacting factors. Among these were class I bHLH proteins TCF3, TCF4 and TCF12. RNA-seq upon Pbx1, Tcf3 and Tcf4 knockdown identified proliferation and differentiation associated genes as shared targets. Neuronal differentiation was reduced upon depletion of either factor, suggesting functional cooperation between PBX1 and TCF3/4. Notably, while physiological PBX1-TCF interactions have not yet been described, chromosomal translocation resulting in genomic TCF3::PBX1 fusion characterizes a subtype of acute lymphoblastic leukemia. Introducing Pbx1 into Nalm6 cells, a pre B-cell line expressing TCF3 but lacking PBX1, upregulated leukemogenic genes including BLK and NOTCH3, arguing that functional PBX1-TCF cooperation likely extends to hematopoietic contexts. Our study hence uncovers a PBX1-TCF module orchestrating the balance between progenitor cell proliferation and differentiation in adult neurogenesis with implications for leukemia etiology.

Project description:Sle1a.1 is part of the Sle1a lupus susceptibility locus which results in the production of activated and autoreactive CD4+ T cells as well as a reduction in the peripheral regulatory T cell (Treg) pool. Sle1a.1 CD4+ T cells showed a defective response to retinoic acid (RA) expansion of TGFβ-induced Tregs. At the molecular level, Sle1a.1 corresponds to an increased expression of a novel splice isoform of Pbx1, Pbx1-d. Pbx1-d over-expression is sufficient to induce an activated/inflammatory phenotype in Jurkat T cells, and to decrease their apoptotic response to RA. PBX1-d is expressed more frequently in lupus patients than in healthy controls, and its presence correlates with an increased memory T cell population. These findings indicate that Pbx1 is a novel lupus susceptibility gene that regulates T cell activation and tolerance. Total RNA from CD4+ T cells from C57BL/6 (B6) and B6.Sle1a.1 (Sle) mice was isolated, with 4 biological replicates each. Gene expression data from C57BL/6 mice were compared with data from B6.Sle2c1 mice.

Project description:Developmental transcription factors act in networks, but how these networks achieve cell- and tissue specificity is still poorly understood. Here we explored pre-B cell leukemia homeobox 1 (PBX1) in adult neurogenesis combining genomic, transcriptomic, and proteomic approaches. ChIP-Seq analysis uncovered PBX1 binding to a wide range of different sites. Integration of PBX1 ChIP-seq with ATAC-seq data predicted interaction partners, which were subsequently validated by mass spectrometry. Spatial transcriptomics revealed distinct temporal expression dynamics of Pbx1 and interacting factors. Among these were class I bHLH proteins TCF3, TCF4 and TCF12. RNA-seq upon Pbx1, Tcf3 and Tcf4 knockdown identified proliferation- and differentiation associated genes as shared targets. Neuronal differentiation was reduced upon depletion of either factor, suggesting functional cooperation between PBX1 and TCF3/4. Notably, while physiological PBX1-TCF interactions have not yet been described, chromosomal translocation resulting in genomic TCF3::PBX1 fusion characterizes a subtype of acute lymphoblastic leukemia. Introducing Pbx1 into Nalm6 cells, a pre-B cell line expressing TCF3 but lacking PBX1, upregulated leukemogenic genes including BLK and NOTCH3, arguing that functional PBX1-TCF cooperation likely extends to hematopoietic contexts. Our study hence uncovers a PBX1-TCF module orchestrating the balance between progenitor cell proliferation and differentiation in adult neurogenesis with implications for leukemia etiology.

Project description:Developmental transcription factors act in networks, but how these networks achieve cell- and tissue specificity is still poorly understood. Here we explored pre-B cell leukemia homeobox 1 (PBX1) in adult neurogenesis combining genomic, transcriptomic, and proteomic approaches. ChIP-Seq analysis uncovered PBX1 binding to a wide range of different sites. Integration of PBX1 ChIP-seq with ATAC-seq data predicted interaction partners, which were subsequently validated by mass spectrometry. Spatial transcriptomics revealed distinct temporal expression dynamics of Pbx1 and interacting factors. Among these were class I bHLH proteins TCF3, TCF4 and TCF12. RNA-seq upon Pbx1, Tcf3 and Tcf4 knockdown identified proliferation- and differentiation associated genes as shared targets. Neuronal differentiation was reduced upon depletion of either factor, suggesting functional cooperation between PBX1 and TCF3/4. Notably, while physiological PBX1-TCF interactions have not yet been described, chromosomal translocation resulting in genomic TCF3::PBX1 fusion characterizes a subtype of acute lymphoblastic leukemia. Introducing Pbx1 into Nalm6 cells, a pre-B cell line expressing TCF3 but lacking PBX1, upregulated leukemogenic genes including BLK and NOTCH3, arguing that functional PBX1-TCF cooperation likely extends to hematopoietic contexts. Our study hence uncovers a PBX1-TCF module orchestrating the balance between progenitor cell proliferation and differentiation in adult neurogenesis with implications for leukemia etiology.

Project description:Sle1a.1 is part of the Sle1a lupus susceptibility locus which results in the production of activated and autoreactive CD4+ T cells as well as a reduction in the peripheral regulatory T cell (Treg) pool. Sle1a.1 CD4+ T cells showed a defective response to retinoic acid (RA) expansion of TGFβ-induced Tregs. At the molecular level, Sle1a.1 corresponds to an increased expression of a novel splice isoform of Pbx1, Pbx1-d. Pbx1-d over-expression is sufficient to induce an activated/inflammatory phenotype in Jurkat T cells, and to decrease their apoptotic response to RA. PBX1-d is expressed more frequently in lupus patients than in healthy controls, and its presence correlates with an increased memory T cell population. These findings indicate that Pbx1 is a novel lupus susceptibility gene that regulates T cell activation and tolerance.

Project description:Pre–B-cell leukemia homeobox (PBX) and myeloid ecotropic viral integration site (MEIS) proteins control cell fate decisions in many physiological and pathophysiological contexts, but how these proteins function mechanistically remains poorly defined. Focusing on the first hours of neuronal differentiation of adult subventricular zone–derived stem/progenitor cells, we describe a sequence of events by which PBX-MEIS facilitates chromatin accessibility of transcriptionally inactive genes: In undifferentiated cells, PBX1 is bound to the H1-compacted promoter/proximal enhancer of the neuron-specific gene doublecortin (Dcx). Once differentiation is induced, MEIS associates with chromatin-bound PBX1, recruits PARP1/ARTD1, and initiates PARP1-mediated eviction of H1 from the chromatin fiber. These results for the first time link MEIS proteins to PARP-regulated chromatin dynamics and provide a mechanistic basis to explain the profound cellular changes elicited by these proteins.

Project description:Xenopus tropicalis pbx1, pre-B-cell leukemia homeobox 1 [Source:Xenbase;Acc:XB-GENE-1217592], is expressed in 1 baseline experiment(s);

Project description:Mus musculus Pbx1, pre B cell leukemia homeobox 1 [Source:MGI Symbol;Acc:MGI:97495], is differentially expressed in 132 experiment(s);

Project description:Mus musculus Pbx1, pre B cell leukemia homeobox 1 [Source:MGI Symbol;Acc:MGI:97495], is expressed in 36 baseline experiment(s);

Project description:Pre B cell leukemia homeobox 1 (Pbx1) regulates the balance between self-renewal and differentiation of hematopoietic stem cells, and maintains proto-oncogenic transcriptional pathways implicated in several tumors. Its aberrant expression was found in a subset of myeloproliferative neoplasms (MPN) patients bearing the JAK2V617F mutation. To investigate if Pbx1 contributes to MPN, and to explore its potential as therapeutic target, we generated a new mouse strain, that we called JP, by crossing a known JAK2V617F inducible knock-in MPN model with a Pbx1 conditional-ko. In JP mice we can simultaneously activate the human JAK2 mutation and delete Pbx1. Typical MPN features, such as thrombocytemia and granulocytosis, did not develop in the absence of Pbx1. Erythrocytosis, initially displayed by JP mice, gradually resolved over time. Moreover, splenic myeloid metaplasia and in vitro cytokine independent growth were rescued by Pbx1 inactivation. Through RNA-Sequencing we analyzed molecular pathways downstream of Pbx1 and involved in MPN maintenance in stem and progenitor cells. The aberrant transcriptome in the MPN model compared to wild-type was rescued by the absence of Pbx1. Our results demonstrate that inhibition of the Pbx1-driven transcriptional program is beneficial in MPN. Modulation of Pbx1 activity by direct targeting or by targeting its downstream mediators might thus represent a novel therapeutic approach.