Project description:To investigate the transcriptional effects of CD177+ neutrophils on microglia in spinal cord injuries (SCI), we adapted a co-culture system containing isolated neutrophils from Cd177 WT or KO mice post-SCI and isolated microglia. Each group had a biological repeat (n=3).

Project description:Effect of isolated neutrophils from Cd177 knockout mice post-SCI on macrophages in a co-culture system

Project description:Effect of isolated neutrophils from Cd177 knockout mice post-SCI on microglia in a co-culture system

Project description:Monocytes and neutrophils are both myeloid cells that have the same progenitor, the granulocyte macrophage precursor (GMP). Neutrophils are mature innate cells that are phagocytes and can degranulate to mount an immune response, whereas monocytes are immature pluripotent cells that can differentiate into macrophages and dendritic cells that can phagocytose and present antigen. To compare the expression pattern and validate samples purity by comparing expression data with previously generated data for monocytes and neutrophils, we isolated monocytes (CD45+ CD64+ CD14+ CD16-) and neutrophils (CD66b+ CD16+) from eight healthy volunteers.

Project description:sci-RNA-seq data

Project description:sci-ATAC-seq data

Project description:Genes expression in Ly6C+/F4/80+ inflammatory macrophages, CX3CR1+/F4/80+ tissue resident macrophages and Ly6G+/F4/80- neutrophils which were isolated from day 3 wounds in C57/B6 mice aged 8 weeks by cell sorting Ly6C+ macrophages expressed higher (over 5 folds) levels of 241 genes compared to CX3CR1+ macrophages, and 3382 genes compared to neutrophils

Project description:We report the characterisation of the transcriptional changes associated with neutrophil hypersegmentation in primary human cells. We established a model of hypersegmentation by exposing healthy peripheral blood neutrophils to the angiotensin converting enzyme inhibitor (ACEi) captopril. Laser capture microdissection (LCM) was then adapted to isolate a population of hypersegmented neutrophils. Transcriptomic analysis of microdissected hypersegmented neutrophils was undertaken using RNA sequencing. This study reveals the transcriptomic signature of hypersegmented neutrophils, with five genes differentially expressed and modulated pathways including histone modification, protein-DNA complex assembly and antimicrobial humoral response.

Project description:Pathologically activated neutrophils (PMN), termed myeloid-derived suppressor cells (PMN-MDSCs), are major negative regulators of anti-tumor immunity. The mechanisms responsible for the pathological activation of neutrophils upon infiltration into tumors are not well defined, thus limiting the selective targeting of these cells. Tumor cells and immune cells engage in bi-directional manipulation of their respective metabolism, thereby altering cell function to facilitate tumor progression. Targeting the metabolism of responding immune cells can improve cancer treatment when combined with existing therapeutic strategies. Here, we investigated the role of metabolism in the immunoinhibitory actions of tumor PMN-MDSCs.

Project description:We asked what genes are significantly differentially regulated in the spinal cord of SCI trkB.T1 WT and trkB.T1 KO mice. TrkB.T1 is upregulated shortly after SCI although the precise mechanisms underyling this upregulation are poorly understood. In the trkB.T1 null, we show less mechanical allodynia and better locomotor recovery following SCI. The microarray studies helped us to elucidate a signaling pathway that is differently regulated in the WT versus KO mice at 1 day after SCI. In this study, we did not examine gene changes within a genotype after SCI. Rather, we examined DGE by genotype at each time point. Spinal cord tissue from WT and KO mice in a sham condition (intact spinal cord) versus 1D, 3D and 7D following SCI was harvested for microarray analyses.