Project description:RNA-seq of the 4 eosinophil maturation stages in the murine bone marrow during Interleukin-33 induced eosinophilia combined with Anti-IL5 or Control isotype injections.

Project description:This study aimed to investigate the effect of IL-33 in eosinophil in the context of arthritis. To address this, bone marrow derived eosinophils were generated and treated with or without IL-33 for 3 hours. Then total RNAs were subjected to the study.

Project description:Study of the impact of Anti-IL5 neutralizing antibodies on bone marrow eosinophil maturation stages during IL-33 induced eosinophilia.

Project description:RNA-seq of the 4 stages of maturation of eosinophils in the murine bone marrow in the steady state and in Interleukin-33- induced eosinophilia.

Project description:Study of the transcriptional changes occurring during eosinophil development in healthy human bone marrow.

Project description:Determination of the molecular mechanism of IL33 on glioma cells Since IL-33 is known to associate with chromatin and regulate transcriptional activity and that nuclear expression of IL-33 increases glioma progression, we determined Nuclear IL-33 regulates the expression and secretion of inflammatory cytokines in glioma cells. Using these parameters 340 genes were induced by the ectopic expression of IL-33 and an additional 377 genes were downregulated. Gene ontology terms over-represented in the genes induced by IL-33 include three major clusters that associate with cytokine activity and inflammation

Project description:A sputum bioassay for airway eosinophilia using an eosinophil peroxidase aptamer

Project description:To validate the modulation of inflammatory genes by ectopic IL-33, we performed Gene expression analysis using the nCounter Mouse v2 Inflammation Panel. This result validated a significant increase in a number of anti-inflammatory cytokines in the IL-33+ xenografts that were absent in the DNLS xenografts

Project description:Glioma cells response Interleukin-33 (IL-33) [microarray]

Project description:Interleukin-33 (IL-33), a member of the IL-1 superfamily cytokines, is an endogenous danger signal and a nuclear-associated cytokine. It is one of the essential mediators of both innate and adaptive immune responses. Aberrant IL-33 signaling has been demonstrated to play a defensive role against various infectious and inflammatory diseases. Although the signaling responses mediated by IL-33 have been previously reported, the temporal signalingdynamicsare yet to be explored. Towards this end,we applied quantitative temporal phosphoproteomics analysis to elucidate pathways and proteins induced by IL-33 in THP1 monocytes. Employing TMT labeling-based quantitation and titanium dioxide (TiO2)-based phosphopeptide enrichment strategy followed by mass spectrometry analysis, we identified 14,515 phosphorylation sites mapping to 4,174 proteins across (0 min to 240 mins)time points.