Project description:We generated homozygous GATA2 knockout human embryonic stem cells (GATA2-/- hESCs) and analyzed their blood differentiation potential. Paritcularly at the hemogenic endothelium (HE) stage and hematopoietic progenitor cell (HPC) stage. Our result revealed that GATA2-/- hESCs displayed attenuated generation of CD34+CD43+ HPCs, due to the impairment of endothelial to hematopoietic transition (EHT). However, GATA2-/- hESCs retained the potential to generate erythroblasts, macrophages, but never granulocytes. Through RNA-Seq and further rescue experiment, we further identified that SPI1 was responsible for the defect of GATA2-/- hESCs in generation of CD34+CD43+ HPCs and granulocytes.
Project description:Purpose: Next-generation sequencing (NGS) has revolutionized systems-based analysis of cellular pathways. The goals of this study are to compare AR binding activity in LNCaP cells with and without knockdown of GATA2. Methods: LNCaP cells between passage number 32-34 were used for assay. Cells are transfected with GATA2 specific or nonspecific siRNA and ChIP was performed, the ChIP producted was further used to generate library with illumina ChIP-seq kit. Hi-seq 2500 was used for sequencing and the data was analyzed by MACs for peaks. Results: GATA2 knockdown lead to changes of AR binding activity , in most AR binding sites, AR shows decreased bindig activity. Only small percent sites show increased binding. Conclusions: Our study represents the first detailed analysis of the relationship between GATA2 and AR binding in whole genomic DNA.These results demostrate GATA2 play a critical role in AR activity in prostate cancer. LNCaP cells was used as cell model were treated with specific GATA2 siRNA.Library was sequenced using Illumina HI-seq 2500.
Project description:Innate immune signaling protects against pathogens, controls hematopoietic development and functions in oncogenesis, yet the relationship between these mechanisms is incompletely defined. Downregulating the GATA2 transcription factor in fetal hematopoietic progenitor cells upregulates genes encoding innate immune regulators, increases Interferon-g (IFNg) signaling and disrupts differentiation. Here, we demonstrate that deletion of an enhancer that confers GATA2 expression in fetal progenitor cells elevated Toll-Like Receptor (TLR) TLR1/2 and TLR2/6 expression and signaling. Genetic rescue by expressing GATA2 downregulated the elevated TLR signaling. IFNg amplified TLR1/2 and TLR2/6 signaling in GATA2-deficient progenitor cells, synergistically activating cytokine/chemokine genes and elevating cytokine/chemokine production in their myeloid cell progeny. Genome-wide analysis of how IFNg and TLR signaling remodels the progenitor cell transcriptome in GATA2-deficient cells revealed exaggerated responses at innate immune genes harboring motifs for signal-dependent transcription factors. Thus, GATA2 establishes a transcriptome that constrains innate immune signaling, and insufficient GATA2 renders fetal progenitor cells hypersensitive to innate immune signaling.
Project description:Purpose: The dynamic nucleosome reorganization is the interplay among nucleosome and regulated by pioneer factors, which can access target DNA sequences on nucleosomes.The goals of this study are revealing the dynamic nucleosome footprint and how GATA2 is capable of resetting crowding array to primed, or accessible edge nucleosome states. Methods: LNCaP cells between passage number 30-35 were used for assay. cell nucleus was extracted, digested by MNase to Mono-nucleosome and ChIP/ChIP-exo was performed, the ChIP products were further used to generate library with illumina ChIP-seq kit. Hi-seq 3000 was used for sequencing and the data was analyzed by MACS2 for peaks. Results: GATA2 is associated with condensed nucleosome states and nucleosomes could unwrapped and be more accessible in pioneer factor GATA2 binding sites. Conclusions: Our study represents the first detailed nucleosome footprint of LNCap cells and analysis of the relationship between pioneer factor GATA2 and nucleosome reorganization in whole genomic DNA. These results demonstrated GATA2 play a critical role in an AR-independent manner in prostate cancer.
Project description:Although certain human genetic variants are conspicuously loss-of-function, decoding the impact of many variants is challenging. Previously, we described a leukemia predisposition syndrome (GATA2-deficiency) patient with a germline GATA2 variant that inserts nine amino acids between the two zinc fingers (9aa-Ins). Here, we conducted mechanistic analyses using genomic technologies and a genetic rescue system with Gata2 enhancer-mutant hematopoietic progenitor cells to compare how GATA2 and 9aa-Ins function genome-wide. Despite nuclear localization, 9aa-Ins was severely defective in occupying and remodeling chromatin and regulating transcription. Variation of the inter-zinc finger spacer length revealed that insertions were more deleterious to activation than repression. GATA2-deficiency generated a lineage-diverting gene expression program and a hematopoiesis-disrupting signaling network in progenitors with reduced Granulocyte-Macrophage Colony-Stimulating Factor (GM-CSF) and elevated Interleukin-6 (IL-6) signaling. As insufficient GM-CSF signaling causes pulmonary alveolar proteinosis and excessive IL-6 signaling promotes bone marrow failure, GATA2-deficiency patient phenotypes, these results provide insight into mechanisms underlying GATA2-linked pathologies.
Project description:Purpose: The dynamic chromatin accessibility was regulated by pioneer factors. The goals of this study are revealing the mechanism of GATA2 and SOX9 required for the change of nucleosome states. Methods: LNCaP cells between passage number 30-35 were used for assay. cell nucleus was extracted, digested by Tn5 transposase and ChIP was performed, the ChIP products were further used to generate library with illumina ChIP-seq kit. Hi-seq 3000 was used for sequencing and the data was analyzed by MACS2 for peaks. Results: GATA2 is associated with condensed nucleosome states and SOX9 is recruit for unwrapped the nucleosomes. Conclusions: Our study represents the first detailed nucleosome footprint of LNCap cells and mechanism underlining GATA2 and nucleosome reorganization in whole genomic DNA.
Project description:Purpose: Next-generation sequencing (NGS) has revolutionized systems-based analysis of cellular pathways. The goals of this study are to compare AR binding activity in LNCaP cells with and without knockdown of GATA2. Methods: LNCaP cells between passage number 32-34 were used for assay. Cells are transfected with GATA2 specific or nonspecific siRNA and ChIP was performed, the ChIP producted was further used to generate library with illumina ChIP-seq kit. Hi-seq 2500 was used for sequencing and the data was analyzed by MACs for peaks. Results: GATA2 knockdown lead to changes of AR binding activity , in most AR binding sites, AR shows decreased bindig activity. Only small percent sites show increased binding. Conclusions: Our study represents the first detailed analysis of the relationship between GATA2 and AR binding in whole genomic DNA.These results demostrate GATA2 play a critical role in AR activity in prostate cancer.