Project description:Using the Illumina EPIC array to measure DNAm of gMDSCs and neutrophils from diverse neonatal and adult blood sources, we found 189 differentially methylated CpGs between gMDSCs and neutrophils with a core of ten differentially methylated CpGs that were consistent across both sources of cells. Genes associated with these loci that are involved in immune responses include VCL, FATS, YAP1, KREMEN2, UBTF, MCC-1, and EFCC1. In two cancer patient groups that reflected those used to develop the methylation markers (head and neck squamous cell carcinoma (HNSCC) and glioma), all of the CpG loci were differentially methylated, reaching statistical significance in glioma cases and controls, while one was significantly different in the smaller HNSCC group. Our findings indicate that gMDSCs have a core of distinct DNAm alterations, informing future research on gMDSC differentiation and function.

Project description:The CCAAT/enhancer-binding proteins (CEBPs) are transcription factors involved in hematopoietic cell development and induction of several inflammatory mediators. Here, we generated CEBP-beta (CEBPB) and CEBP-epsilon (CEBPE) double-knockout (bbee) mice and compared their phenotypes to those of single-deficient (bbEE and BBee) and wild-type (BBEE) mice. The bbee mice were highly susceptible to fatal infections and died within 2-3 months. Morphologically, their neutrophils were blocked at the myelocytes/metamyelocytes stage, and clonogenic assays of bone marrow cells indicated a significant decrease in the number of myeloid colonies of the bbee mice. In addition, the proportion of hematopoietic progenitor cells [Lin(-)Sca1(+)c-Kit(+)] in the bone marrow of the bbee mice was significantly increased, reflecting the defective differentiation of the myeloid compartment. Furthermore, microarray expression analysis of lipopolysaccharide (LPS)- and interferon-gamma (IFN-gamma)-activated bone marrow-derived macrophages from bbee compared to single knockout mice revealed decreased expression of essential immune response-related genes and networks, including some direct CEBP targets such as Marco and Clec4e. Overall, the phenotype of the bbee mice is distinct from either the bbEE or BBee mice, demonstrating that both transcription factors are crucial for the maturation of neutrophils and macrophages, as well as the innate immune system, and can at least in part compensate for each other in the single knockout mice. To rule out the regulatory influence of both CEBPB and CEBPE on macrophage-related genes, expression analysis of bone marrow-derived macrophages was performed. Macrophages were derived from murine bone marrow with the use of murine M-CSF. The macrophages were stimulated with both LPS (100 ng) and IFN-gamma (100 ng) for 24h, and RNA was extracted for array analysis. Overall, RNA was extracted from stimulated macrophages of one WT mouse, one CEBPB-KO mouse, one CEBPE-KO mouse and one double-KO mouse.

Project description:Comparative analysis of FACS-sorted CCR2- and CCR2+ HSC in the steady state. CCR2+ HSC have fourfold higher proliferative rates than CCR2- HSC, are are biased towards the myeloid lineage and dominate the migratory HSC population. Comparison of pooled CCR2- and CCR2+ HSC (bone marrow from 20 mice pooled for each sample), three biological replicates each.

Project description:In a syngeneic mouse model of melanoma, we found that tumor size was inversely correlated with response to immunotherapy. Large tumors had higher levels of IL-1α, Th2 cytokines, granulocytic myeloid-derived suppressor cells (GMDSCs), and regulatory T cells but lower levels of IL-12, Th1 cytokines, and activated CD4+ and CD8+ T cells. Blocking IL-1 signaling decreased GMDSCs and their associated PD-L1 expression in the tumor microenvironment, and enhanced tumor-specific immunity.

Project description:Human left ventricular cardiac tissue was isolated from patients at the time of surgery. Tissue was digested into single cell suspension and labeled with CD45, CD14, HLA-DR and CCR2 antibodies. Macrophages were sorted into three groups (CCR2+ Monocytes: CD14+ CCR2+ HLA-DRNeg; CCR2+ Macrophages: CD14+CCR2+HLA-DR+; MHC-II hi Macrophages: CD14+CCR2-HLA-DR+)

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:Controlled recruitment of C-C Motif Chemokine Receptor 2 (CCR2)-positive monocytes into lung tissues is a crucial component of the host immune response to infections. Pathogenesis of cystic fibrosis (CF) lung remodeling, which ultimately leads to respiratory failure, is caused by chronic infections and neutrophilic inflammation, but the immune mechanisms are not fully understood. Here, we show that lung explants from CF patients with severe disease contain abundant CCR2-positive classical monocytes in the submucosal tissues of small airways and areas of tissue remodeling. Recapitulating human CF lung remodeling by repeatedly exposing CF mice to lipopolysaccharide (LPS), and by using genetic ablation or pharmacological inhibition of CCR2, we demonstrate that CCR2-dependent accumulation of classical monocytes and monocyte-derived macrophages drive lung neutrophilia, pathogenic Transforming Growth Factor Beta signaling and irreversible lung tissue scarring. Importantly, six weeks after cessation of LPS exposure, the lungs of CF mice still have elevated numbers of pro-inflammatory monocytes with higher expression of neutrophil chemoattractants, thus perpetuating recruitment of neutrophils and lung tissue damage. Lastly, we demonstrate that the increased accumulation of immune cells to inflamed lungs is driven by dysfunctional CF transmembrane conductance regulator (CFTR) expression in CCR2-positive cells. These studies identify uncontrolled recruitment of CCR2-positive cells as a key driver of lung remodeling, and as a novel therapeutic target for patients with CF for which lung hyper-inflammation and tissue damage remain an issue despite recent advances in CFTR-specific therapeutics. Keywords: monocytes; macrophages; neutrophils; chronic lung inflammation; lipopolysaccharide; recruitment; CC-motif chemokine receptor 2; transforming growth factor beta; lung remodeling; cystic fibrosis

Project description:The adult heart contains macrophages derived from both embryonic and adult bone-marrow derived precursors. Such population diversity raises the possibility that macrophages of distinct origins occupy differing biological roles or anatomical niches within the heart. Here, we provide evidence for the latter, showing that bone-marrow derived macrophages express the chemokine receptor Ccr2 and preferentially localise to the aortic root of the heart. This targeted migration occurs via a Ccr2-Ccl7 axis, whereby Ccl7-producing cardiac fibroblasts populating the aortic root, recruit Ccr2pos macrophages. Notably, the selective recruitment of Ccr2pos macrophages renders the aortic root sensitive to inflammatory disease. In a mouse model of Kawasaki Disease, acute inflammation drives a numerical increase in bone-marrow derived Ccr2pos macrophages, which accumulate at the aorta and trigger local inflammation at this site. We propose that cardiac fibroblasts recruit Ccr2pos macrophages to the aortic root, and that this process targets inflammatory disease to the heart’s major vessels.

Project description:The recruitment and/or retention kinetics of neutrophils in diabetic (db) cutaneous wounds is aberrant, and inflammation is prolonged. Intrinsic factors have been shown to play an important role in aberrant myeloid cell behavior. The pathogenesis of chronic inflammation may be due to dysfunction of db-derived neutrophils. microRNAs (miRNAs) have been shown to globally regulate a large range of biological processes within a cell. Therefore, in order to clarify the molecular mechanism of regulation of inflammation in db-derived neutrophils, we screened for changes in miRNAs in db-derived neutrophils. miRNAs are differentially expressed in db-derived neutrophils, particularly members of the miR-129 family. Our results suggest that deregulation of the miR-129 family contributes to the dysfunction of db-derived neutrophils. The retention kinetics of neutrophils and chronic inflammation may be initiated via miR-129 family-regulated genes such as Casp6, Dedd2 and Ccr2.

Project description:We developed a simplified flow cytometry strategy in order to discriminate monocytes and macrophages in the lung of C57BL/6 mice. Using this strategy, we identified autofluorescent F4/80+ CD11c+ alveolar macrophages, non-autofluorescent CD64+Ly-6C- interstitial macrophages and Ly-6Chi monocytes residing in the lung of WT mice. A fraction of these Ly-6Chi monocytes corresponded to classical blood monocytes associated with the lung vasculature, but another fraction did not depend on CCR2, the chemokine receptor required for monocytes to egress from the bone marrow, as a population of lung Ly-6Chi monocytes was also present in the lung of Ccr2-/- mice. A remaining question was whether lung monocytes represented a particular population of monocytes that could be distinguishable from the classical CCR2-dependent blood monocytes. To address this issue, we performed a transcriptomic comparison of Ly-6Chi monocytes recovered from flushed lung of WT mice (≈60% of CCR2- dependent classical blood monocytes and ≈40% of lung monocytes) and Ccr2-/- mice (more than 95% of lung monocytes). In addition, we tested whether exposure to TLR ligands would affect interstitial macrophages, and we compared to transcriptome of IM at steady-state and IM 1 week after administration of 50 µg CpG-DNA intratracheally.