Project description:RNAseq of untreated, CSF1-treated, CSF1+QVD-treated, and GM-CSF-treated monocytes

Project description:Caspases, which are key effectors of apoptosis, have demonstrated non-apoptotic functions. One of these functions is the differentiation into macrophages of peripheral blood monocytes exposed to Colony-Stimulating Factor-1 (CSF1). Macrophage polarization plays an important role in the pathogenesis of diverse human diseases as cancer, leading us to explore if caspase inhibition would affect macrophage polarization. To explore the role of caspases in CSF1 differentiation, we used human monocytes sorted from buffy coats treated by cytokines. We reported that caspase inhibition delays the ex vivo differentiation of peripheral blood monocytes exposed to CSF1 and modifies the phenotype of generated macrophages, e.g. cell shape, surface markers. Moreover, by RNAseq, we observed that the macrophages generated in presence of CSF1 and QVD are different from CSF1-treated monocytes. This study confirms the importance of caspase activation in CSF1 differentiation.

Project description:Caspases, which are key effectors of apoptosis, have demonstrated non-apoptotic functions. One of these functions is the differentiation into macrophages of peripheral blood monocytes exposed to Colony-Stimulating Factor-1 (CSF1). Conversely, GM-CSF induces the differentiation of monocytes into macrophages in a caspase-independent manner. Macrophages generated by CSF1 and GM-CSF have distinct polarity. Macrophage polarization plays an important role in the pathogenesis of diverse human diseases as cancer, leading us to explore if caspase inhibition would affect macrophage polarization. To explore the role of caspases in CSF1 differentiation, we used human monocytes sorted from buffy coats treated by cytokines. We reported that caspase inhibition delays the ex vivo differentiation of peripheral blood monocytes exposed to CSF1 and modifies the phenotype of generated macrophages, e.g. cell shape, surface markers. Moreover, by RNAseq, we observed that the macrophages generated in presence of CSF1 and QVD are different from CSF1-treated monocytes and from GM-CSF-treated monocytes. Cell cycle and focal adhesion-related pathway genes were selectively down-regulated. This study confirms the importance of caspase activation in CSF1 differentiation.

Project description:RNASeq analysis of untreated versus treated

Project description:Total mRNA expression of CXCL12-treated monocytes was compared with control untreated monocytes

Project description:Total mRNA expression of CXCL12-treated monocytes was compared with control untreated monocytes Human Peripheral blood monocytes from three different healthy donors were isolated by anti-CD14-labeled magnetic microbeads. CD14+ monocytes were cultured in teflon dishes for 1h in RPMI 10% FCS and then, were treated or not with CXCL12 for 6h. Total RNA from each condition was extracted and purified using the RNasey kit (Qiagen). Labelled RNA was used as hybridization probes on human Codelink Whole genome Bioarray. All experimental procedures were performed following manufacturer instructions. Microarrays were scanned with a GenePix 4000B (Axon Instruments) scanner. Scanned images and raw data were processed using the Codelink Expression Software.

Project description:G-CSF1

Project description:G-CSF1

Project description:Bulk RNAseq of AML and endothelial cells in untreated and cytokine-treated conditions

Project description:Gene expression of blood monocytes from mouse models of hypoxic acute lung injury (ALI) housed in normoxia, hypoxia and hypoxia+CSF1 conditions, assayed on NanoString nCounter Mouse Myeloid Innate Immunity Panel panel (GPL30135)