Project description:HNF1A and UTX are putative tumor suppressors in pancreatic cancer. In this study, we have combined mouse genetics, transcriptomics and genome binding studies to link HNF1A and UTX in a molecular mechanism that suppresses pancreatic cancer. In this session, we have profiled UTX, HNF1A, H3K27me3 and H3K27ac in normal and UTX- or HNF1A-deficient mouse pancreas by ChIP-seq experiments. We show that HNF1A recruits UTX to its genomic targets in pancreatic acinar cells, which results in remodeling of the chromatin landscape and activation of a broad transcriptional program of differentiated acinar cells, which in turn indirectly suppresses tumor suppressor pathways.

Project description:Tumor suppressor p53 regulates various role in the cell including cell cycle arrest, DNA repair and apoptosis. Current research achieved to investigate p53 target genes in human osteosarcoma cell line-SaOS2 cell. Examination of p53 binding protein by transfecting flag-tagged wild type p53 into SaOS2 cells.

Project description:Missense mutations in the TP53 gene are frequent genetic alterations in human tumor tissue and cell lines. In contrast to wild-type p53, the mutant p53 (mutp53) protein has lost the transcriptional activity towards pro-apoptotic and growth arrest genes, but retained the property to interact with DNA in a structure-specific fashion. Expression of mutp53 is advantageous for tumor cells, however the molecular mechanism of mutp53 action is still not known. We used the glioblastoma-derived U-251 MG human cell line to analyze DNA binding of mutant p53 (R273H mutation) on a Nimblegen custom 135k tiling array and to correlate mutp53 binding regions with the epigenetic state and occupation by other transcription factors (ETS1 and SP1). We found that mutp53-binding regions are G/C-rich and are located around transcriptional start sites (TSS) of many protein-coding genes, which in most cases are active, but are not always regulated upon transient mutp53 depletion. We propose a model which does not only rely on interactions of mutp53 with diverse transcriptional regulators at active promoters, but primarily is based on a DNA binding activity of mutp53. We designed a Nimblegen custom 135k tiling array that covers a large set of putative and known p53 (wild-type and mutant) target genes in the human genome. For analysis of the epigenetic state of genes covered by the tiling array in control and mutant p53-depleted U251 cells we focused on changes in active histone marks, H3K4me3 and H3K9Ac, and RNA polymerase II recruitment and processivity. H3K4me3 and H3K9Ac marks are enriched in active promoter regions and the phosphorylation of serine 5 (S5-P) and serine 2 (S2-P) in the CTD of RNA polymerase II have been described to define initiated and elongating complexes, respectively. We performed the ChIP-chip experiments for H3K4me3, H3K9Ac, RNA polymerase II (S5-P) and RNA polymerase II (S2-P) from U251 cells transfected with p53-specific siRNA or control siRNA (2 biological replicates each). To analyze binding of mutant p53 to the genes covered by the tiling array we performed mutant p53 ChIP-chip experiments in 4 biological replicates of. In addition, we analyzed the distribution of SP1 and ETS1 binding sites in 3 biological replicates.

Project description:ChIP-seq of NCoR1 was performed to identify binding sites of NCoR1 in TLR dependent manner. MutuDC1940 cell line were treated with TLR3 ligand poly(I:C) and combined stimulation of TLR9 (CpG-B), TLR3, and IFNg for 6hr.

Project description:Chromatin immunoprecipitation sequencing analysis of Smad3 and EZH2 binding sites in hIPSCs and iPSC-derived nephron progenitors.

Project description:Most B cell lymphomas arise in the germinal center (GC), where humoral immune responses evolve from potentially oncogenic cycles of mutation, proliferation, and clonal selection. Although lymphoma gene expression diverges significantly from GC-B cells, underlying mechanisms that alter the activities of corresponding regulatory elements (REs) remain elusive. Here we define the complete pathogenic circuitry of human follicular lymphoma (FL), which activates or decommissions transcriptional circuits from normal GC-B cells and commandeers enhancers from other lineages. Moreover, independent sets of transcription factors, whose expression is deregulated in FL, target commandeered versus decommissioned REs. Our approach reveals two distinct subtypes of low-grade FL, whose pathogenic circuitries resemble GC-B or activated B cells. Remarkably, FL-altered enhancers also are enriched for sequence variants, including somatic mutations, which disrupt transcription factor binding and expression of circuit-linked genes. Thus, the pathogenic regulatory circuitry of FL reveals distinct genetic and epigenetic etiologies for GC-B transformation. Molecular profiling of follicular lymphoma, resting peripheral blood and tonsillar B cells using Formaldehyde-Assisted Isolation of Regulatory Elements (FAIRE) and chromatin immunoprecipitation (H3ac and H3K27ac).

Project description:We analyzed the genome-wide chromatin states in Zscan4 positive ES cells (Em+) and Zscan4 negative ES cells (Em-) by using FACS-sorted MC1-ZE7 ES cells. H3K27 hyperacetylation and DNA demethylation were detected in heterochromatic regions of Em+ cells. These results suggested that the heterochromatin is activated in Zscan4 positive state. H3K9me2 in Zscan4 positive and negative cells

Project description:By using FACS-sorted MC1-ZE7 ES cells, we analyzed the genome-wide distribution of H3K27ac and DNA methylation in Zscan4 positive ES cells (Em+) and Zscan4 negative ES cells (Em-). H3K27 hyperacetylation and DNA demethylation were detected in heterochromatic regions of Em+ cells, but not Em- cells. These results suggested that the Zscan4 state takes "open" chromatin conformation in ES cells. H3K27ac in Zscan4 positive and negative cells

Project description:We performed genome-wide profiling of oligodendrocyte lineage transcription factor 2 (Olig2) and other histone markers in platelet-derived growth factor subunit B (PDGFB)-induced glioma and genome-occupancy analyses coupled with transcriptome profiling to reveal gene regulatory network. Examination of Olig2, H327Ac, and H3K4me3 genome-wide occupancy in PDGFB-induced Ctrl-T and Olig2cKO brain tumors (gliomas).

Project description:This study contains a series of ChIP-seq experiments performed on nuclear material similar to what was used in Tissue- and Stage-specific Capture-C for selected TSS and CRM (BioStudies/ArrayExpress collection E-MTAB-9310). ChIP-seq with chromatin isolated from nuclei isolated from 2-3h whole embryos samples or Mef2-/Elav-sorted nuclei from 6-8h and 10-12h embryo samples was performed using anti-H3K27ac (Anti-Histone H3 (acetyl K27) antibody, Abcam #ab4729, purified polyclonal), anti-CTCF (rabbit anti Drosophila CTCF antibody, Reinkawitz lab, purified polyclonal), anti-Beaf (mouse anti Drosophila BEAF antibody, DSHB #1553420, monoclonal) and anti-Su(Hw) (goat anti Drosophila Su(Hw) antibody, Geyer lab, purified polyclonal) antibodies.