Project description:Recent blood transcriptomic analysis of rhodesiense sleeping sickness patients has revealed that neutrophil signature genes and activation markers constitute the top indicators of trypanosomiasis-associated inflammation. Here, we used single cell RNA sequencing (scRNA-seq) to analyze the diversity of neutrophils in the spleen. We show that Trypanosoma brucei infection results in expansion and differentiation of four splenic neutrophil subpopulations, including Mki67+Birc5+Gfi1+Cebpe+ proliferation-competent precursors, two intermediate immature subpopulations and Cebpb+Spi1+Irf7+Mcl1+Csf3r+ inflammation reprogrammed mature neutrophils. Transcriptomic scRNA-seq profiling identified the largest immature subpopulation by Mmp8/9 positive tertiary granule markers.

Project description:Recent blood transcriptomic analysis of rhodesiense sleeping sickness patients has revealed that neutrophil signature genes and activation markers constitute the top indicators of trypanosomiasis-associated inflammation. Here, we show that Trypanosoma brucei infection results in expansion and differentiation of four splenic neutrophil subpopulations, including Mki67+Birc5+Gfi1+Cebpe+ proliferation-competent precursors, two intermediate immature subpopulations and Cebpb+Spi1+Irf7+Mcl1+Csf3r+ inflammation reprogrammed mature neutrophils. Transcriptomic scRNA-seq profiling identified the largest immature subpopulation by Mmp8/9 positive tertiary granule markers. We confirmed the presence of both metalloproteinases in extracellular spleen homogenates and plasma. During infection, these enzymes digest extracellular matrix components in the absence of sufficient TIMP inhibitory activity, driving remodeling of the spleen follicular architecture. Neutrophil depletion prevents the occurrence of organ damage, resulting in increased plasma cell numbers and prolonged host survival. We conclude that trypanosomiasis-associated neutrophil activation is a major contributor to the destruction of the secondary lymphoid architecture, required for maintaining an efficient adaptive immune response.

Project description:Interventions: monocyte/neutrophil apheresis non monocyte/neutrophil apheresis Primary outcome(s): Evaluation neutrophil function of patients at high risk for postoperative infection treated with monocyte/neutrophil apheresis Study Design: Parallel Non-randomized

Project description:Interventions: multiple monocyte/neutrophil apheresis non monocyte/neutrophil apheresis Primary outcome(s): Evaluation neutrophil function of patients at high risk for postoperative infection treated with monocyte/neutrophil apheresis Study Design: Parallel Non-randomized

Project description:Recently, it was shown that the Bmp antagonist Noggin could strongly induce cardiomyocyte differentiation by transient treatment of undifferentiated ES cells. In order to determine how Noggin may induce cardiac differentiation, we compared differentially expressed genes during Noggin treatment of ES cells using microarray analysis and found that matrix metalloproteinase (Mmp)-3 is the only gene whose expression is increased by Noggin treatment. Keywords: embryonic stem cells, cardiac differentiation, matrix metalloproteinase-3, Noggin

Project description:Peripheral immune-derived matrix metalloproteinase promotes stress susceptibility

Project description:Dystrophin deficiency hampers cell state transitions during somite development

Project description:Tissue neutrophil heterogeneity

Project description:The alarmin S100A9 hampers retroviral infection by limiting reverse transcription

Project description:CN133 hampers tumor growth in patient-derived pediatric ependymoma models