Project description:Dataset containing single-cell RNA sequencing data of >17,000 healthy and perturbed murine neutrophils across biological tissues. This study contains expression data from healthy tissues (bone marrow, spleen, peripheral blood) as well as models of experimental (K/BxN serum transfer arthritis: peripheral blood and joint, IL-1β peritonitis and IL-1β pneumonitis). Single cell RNA-sequencing was performed on the 10X platform
Project description:Analysis of neutrophil proteomic alterations induced by migration towards inflamed joints in juvenile idiopathic arthritis (JIA). In this experiment neutrophil proteomes were investigated after migration towards JIA synovial fluid in an in vitro model of a synovial membrane, compared to neutrophils incubated in synovial fluid without migration. The migration model consisted of transwell inserts with human knee synoviocytes on the undersides and HMEC endothelial cells on the insides, placed in wells containing medium with 10 % JIA synovial fluid.
Project description:Myocarditis is a heart condition that causes inflammation and results in the loss of heart muscle cells, often leading to fibrosis (scarring) of the heart tissue and heart failure. However, the molecular mechanisms underlying immune cell control and maintenance of tissue integrity in the inflamed cardiac microenvironment remain elusive. Based on our finding that bone morphogenic protein-4 (BMP4) serum concentration was reduced in myocarditis patients in combination with comprehensive single cell and single nucleus RNA sequencing analyses of inflamed murine and human myocardial tissue indicated that BMP4 gradients maintain cardiac tissue homeostasis. Indeed, restoration of BMP signaling through antibody-mediated neutralization of the BMP-inhibitors GREM1 and GREM2 reduced CD4+ T cell-mediated myocardial inflammation and blocked disease progression by reduction of adverse fibrotic remodelling. These results unveil a key function of the BMP4-GREM1/2 axis as promising approach for treating myocardial inflammation and the serious complications of cardiac fibrosis and heart failure.
Project description:Myocarditis is a heart condition that causes inflammation and results in the loss of heart muscle cells, often leading to fibrosis (scarring) of the heart tissue and heart failure. However, the molecular mechanisms underlying immune cell control and maintenance of tissue integrity in the inflamed cardiac microenvironment remain elusive. Based on our finding that bone morphogenic protein-4 (BMP4) serum concentration was reduced in myocarditis patients in combination with comprehensive single cell and single nucleus RNA sequencing analyses of inflamed murine and human myocardial tissue indicated that BMP4 gradients maintain cardiac tissue homeostasis. Indeed, restoration of BMP signaling through antibody-mediated neutralization of the BMP-inhibitors GREM1 and GREM2 reduced CD4+ T cell-mediated myocardial inflammation and blocked disease progression by reduction of adverse fibrotic remodelling. These results unveil a key function of the BMP4-GREM1/2 axis as promising approach for treating myocardial inflammation and the serious complications of cardiac fibrosis and heart failure.
Project description:Mature neutrophis were freshly isolated from blood of pediatric systemic lupus erythematosus (SLE) patients and healthy donors. Illumina microarray was used to assess transcriptional changes between SLE group and Control group. To uderstand further the gene expression difference between SLE and healthy neutrofils, neutrophils from healthy donors were cultured with autologous sera, SLE sera or Interferon and microarray data was used to compare with fresh SLE neutrophils. (Expt 1) Neutrophils from 21 SLE samples (19 patients) and 12 healthy donors were isolated, and extracted RNAs were used generate microarray data. (Expt 2) Neutrophils isolated from 2 healthy children (not used in the first experiment) were cultured with autologous sera (control), Interferon alpha (100U and 1000U), and 4 SLE sera and 6 SLE sera for 6 hours and RNAs were extract for microarray experiment.
Project description:biopsies from the most inflamed area were sequenced where applicable. FACS-sorted cell populations: N=neutrophils; M=mononuclear phagocytes; S=stromal cells; E=eosinophils
Project description:Mature neutrophis were freshly isolated from blood of pediatric systemic lupus erythematosus (SLE) patients and healthy donors. Illumina microarray was used to assess transcriptional changes between SLE group and Control group. To uderstand further the gene expression difference between SLE and healthy neutrofils, neutrophils from healthy donors were cultured with autologous sera, SLE sera or Interferon and microarray data was used to compare with fresh SLE neutrophils.
Project description:The goal of this study was to analyze the transcriptome of circulating neutrophils from healthy human donors by high-throughput sequencing of total RNA samples obtained from neutrophils purified directly from whole blood (without density-gradient centrifugation or red blood cell lysis) by immunomagnetic negative selection.