Project description:Purpose: Multi-omics characterization of the consequences of deleting the SWI/SNF subunit Dpf2 in the transcriptome (RNAseq), accessibility of the genome (ATACseq) and binding of SWI/SNF subunits (CUT&RUN) in hematopoietic stem/progenitor cells, resting and polarized bone-marrow derived macrophages and resting and activated CD4+ T cells obtained from Dpf2f/f and Dpf2D/D mice. Methods: Lin- cKit+ cells were sorted from bone marrow of 28-days old Dpf2f/f and Dpf2D/D mice. Bone-marrow derived macrophages were obtained from 28-days old Dpf2f/f and Dpf2D/D mice and polarized with IFNg and LPS, or IL-4 for 24hours. CD4+ splenic T helper cells were obtained from 28-days old Dpf2f/f and Dpf2D/D mice and activated by treatment with PMA and Ionomycin. Methods: For CUT&RUN experiments, Lin- cKit+ cells were obtained from bone marrow of 28-days old Dpf2f/f and Dpf2D/D mice. Cells were crosslinked (1 min, 1% formaldehyde), quenched (125mM Glycine) and washed in buffers following the CUTANA ChIC/CUT&RUN kit according to the manufacturer’s CUT&RUN cross-linking protocol (EpiCypher, 14-1048). Results: For CUT&RUN experiments, 5 million (paired-end, 75bp) reads were obtained per sample. Pair-end fastq files were processed with the ENCODE Transcription Factor and Histone ChIP-Seq processing pipeline (https://github.com/ENCODE-DCC/chip-seq-pipeline2). Reads were trimmed using cutadapt v2.5. and aligned to the mm10 genome using Bowtie2 v2.3.4.3. SAMtools v1.9 were used to convert the output file to BAM format. Duplicates were removed using Picard Tools v2.20.7. Peak calling was performed with MACS2 v2.2.4. Conclusions: The absence of Dpf2 in LK cells results in downregulation of anti-oxidative and anti-inflammatory gene expression programs in bone marrow LK cells, bone-marrow derived macrophages and CD4+ T cells.

Project description:Purpose: Multi-omics characterization of the consequences of deleting the SWI/SNF subunit Dpf2 in the transcriptome (RNAseq), accessibility of the genome (ATACseq) and binding of SWI/SNF subunits (CUT&RUN) in hematopoietic stem/progenitor cells, resting and polarized bone-marrow derived macrophages and resting and activated CD4+ T cells obtained from Dpf2f/f and Dpf2D/D mice. Methods: Lin- cKit+ cells were sorted from bone marrow of 28-days old Dpf2f/f and Dpf2D/D mice. Bone-marrow derived macrophages were obtained from 28-days old Dpf2f/f and Dpf2D/D mice and polarized with IFNg and LPS, or IL-4 for 24hours. CD4+ splenic T helper cells were obtained from 28-days old Dpf2f/f and Dpf2D/D mice and activated by treatment with PMA and Ionomycin. Methods: For ATACseq, Lin- cKit+ cells were processed following the OMIM-ATAC-seq protocol (Corces MR et al., Nature Methods 2017). Libraries were sequenced on a NextSeq (75bp, paired end reads) to obtain more than 40 million reads/sample. Results: For ATACseq, we obtained more than 40 million reads per sample. ATAC-Seq chromatin accessible regions were determined using ENCODE pipeline standards (https://github.com/ENCODE-DCC/atac-seq-pipeline; git commit 2b693ab). Conclusions: The absence of Dpf2 in LK cells results in downregulation of anti-oxidative and anti-inflammatory gene expression programs in bone marrow LK cells, bone-marrow derived macrophages and CD4+ T cells.

Project description:Purpose: Multi-omics characterization of the consequences of deleting the SWI/SNF subunit Dpf2 in the transcriptome (RNAseq), accessibility of the genome (ATACseq) and binding of SWI/SNF subunits (CUT&RUN) in hematopoietic stem/progenitor cells, resting and polarized bone-marrow derived macrophages and resting and activated CD4+ T cells obtained from Dpf2f/f and Dpf2D/D mice. Methods: Lin- cKit+ cells were sorted from bone marrow of 28-days old Dpf2f/f and Dpf2D/D mice. Bone-marrow derived macrophages were obtained from 28-days old Dpf2f/f and Dpf2D/D mice and polarized with IFNg and LPS, or IL-4 for 24hours. CD4+ splenic T helper cells were obtained from 28-days old Dpf2f/f and Dpf2D/D mice and activated by treatment with PMA and Ionomycin. Methods: For RNAseq, total RNA was extracted using RNEasy Plus micro kit (Qiagen). Ribosomal RNA was removed using NEBNext rRNA Depletion kit and RNAseq libraries were prepared using Illumina's TruSeq total stranded RNAseq prep kit (NuGEN Technologies). RNAseq libraries were sequenced on an Illumina NextSeq500 prep kit (Paired-end, 75bp) or NovaSeq 6000. Results: For RNAseq samples, we obtained more than 40 million paired-end reads per sample. Reads were aligned to the mm10 transcriptome and ERCC spike-in indexes using RSEM (v1.3.0) and STAR (v2.6.0c) with Gencode annotations. Differentially expressed genes were determined by DESeq2 (v1.18.1, Wald Test, p-adj<0.05) after gene counts were corrected based on ERCC variances using RUVseq (v1.12.0). Conclusions: The absence of Dpf2 in LK cells results in downregulation of anti-oxidative and anti-inflammatory gene expression programs in bone marrow LK cells, bone-marrow derived macrophages and CD4+ T cells.

Project description:NrasG12D/G12D Golga7KO mouse bone marrow LK cells sequencing

Project description:We analyzed differentially expressed genes in aortas from Apoe-/- mice that received Apoe-/- bone marrow or Apoe-/-Sept2C111A bone marrow and were infused with Ang II for 28 days to explore the mechanisms of macrophage SNO-Septin2 in aortic aneurysm development.

Project description:Analysis of hematopoietic stem cells (HSC, LSK Flt3-) and myeloid progenitors (MP, LK CD34+) sorted from wildtype and Dnmt1 hypomorph mice Experiment Overall Design: We FACS sorted HSCs and MPs from bone marrow of 8-12 week old wildtype or Dnmt1 hypomorph (Dnmt1-/chip) mice.

Project description:To investigate the toxicity of long-term treatment with Asari Radix et Rhizoma on hematopoietic cells, we have performed the 28 days gavage administration of AR in C57BL/6 mouse. Then, we have harvested the RBC lysed bone marrow cells, and analyzed the RNA-seq. analysis.

Project description:SYNCRIP depletion results in HSCs losing their self renewal abilities. Single cell sequencing was conducted in SYNCRIP WT and KO bone marrow LK (lineage -, cKit+) cells to decipher the effect of Syncrip deletion on cellular identities along the hematopoietic hierarchy, and to gain an in-depth assessment of the transcriptomic changes in different cell types upon SYNCRIP loss.

Project description:MicroRNAs (miRNAs) are critical regulators of gene expression, yet much remains unknown regarding miRNA changes resulting from environmental exposures and whether they influence pathway signaling across various tissues and time. To gain knowledge on these novel topics, we set out to investigate in vivo miRNA responses to inhaled formaldehyde, an important air pollutant known to disrupt miRNA expression profiles. Rats were exposed by inhalation to either 0 or 2 ppm formaldehyde (6 hours/day) for 7 days, 28 days, or 28 days followed by a 7 day recovery. Genome-wide miRNA expression profiles and associated signaling pathways were assessed within the nasal respiratory mucosa, circulating mononuclear white blood cells (WBC), and bone marrow (BM). Male Fischer rats received nose-only inhalation exposures of 2 ppm formaldehyde. Three exposure durations were investigated: (1) 2 ppm formaldehyde exposure, 6 hours/day, for 7 days (7-day group), (2) 2 ppm formaldehyde exposure, 6 hours/day, for 28 days (28-day group), and (3) 2 ppm formaldehyde exposure, 6 hours/day, for 28 days, with a 7 day recovery period following the last exposure (28-day plus recovery group). Control (unexposed) rats were placed in nose-only exposure tubes containing room air for the same duration. After the last exposure period (or the last recovery period for the 28-day plus recovery group), animals were euthanized. RNA were assessed from sampes collected from the nasal epithelium, circulating white blood cells, and bone marrow cells. Genome-wide miRNA expression profiles were evaluated using microarrays.

Project description:We mapped the genome wide binding profile of the chromatin remodeller BRG1 in wild type bone marrow derived macrophages (BMDMs) after 3h LPS and LPS plus Dex treatment by ChIPseq. Additionally, we profiled the GR cistrome in Dex + LPS-treated BMDMs after 3h treatment by ChIPseq.