Project description:In vitro model of differentiation of memory B cells into plasmablasts and plasma cells.

Project description:We used microarray analysis to identify specific molecular mechanisms controlling IL-5 transcription in memory Th2 cells. IL-5+ and IL-5- memory Th2 cells were selected for RNA extraction and hybridization on Affymetrix microarrays.

Project description:Effects of IL-4 on CD8 T cells functions are largely unknown. IL-4 induces survival and proliferation of CD8 T cells, but several studies suggest that IL-4 could also affect several functions of CD8 T cells such as cytotoxicity. Our team has shown that IL-4 repress the expression of Ccl5 in vitro. To define more precisely the impact of IL-4 on CD8 T cells, we performed a whole genome expression microarray analysis of naive and memory CD8 T cells cultured in presence or absence of IL-4. This approach allowed us to define the IL4-gene-expression signature on CD8 T cells. 18 samples were processed. Two populations of F5 naive CD8 T cells were FACS-sorted: samples from each population were incubated 20 hours with IL-7 in presence or absence of IL-4. Thus, a total of 6 “Naive” samples were processed. In addition, 4 populations of F5 TIM memory CD8 T cells were FACS-sorted: samples from 2 of these populations were incubated 20 hours in presence of IL-7 and/or IL-4, or in medium alone. Thus, 12 “Memory” samples were processed.

Project description:We investigated the transcriptome of closely related CD4+ T-cell population from healthy human donors to elucidate the processes that underly their specialized immune functions

Project description:To test whether human in vitro primed Th9 cells recapitulate the core pathogenic Th2 cell phenotype, we differentiated naïve T cells into Th1 (IL-12), Th2 (IL-4), Th9 (IL-4+TGF-β), and iTreg (TGF-β). After 7 days transcriptomic profiling by bulk RNA-seq was performed.

Project description:GEP of 10 day 10 EPCs : 5 transduced by a control Lentivirus at plasma blast stage, 5 transduced with a KLF4 expressing Lentivirus at plasma blast stage.

Project description:The homeodomain protein Meis1 is essential for definitive hematopoiesis and vascular patterning in the mouse embryo. Our present study suggested it exerts two distinguishable effects in differentiating ES cells. First, it increases the numbers of hematopoietic progenitors and extends their persistence in culture. Second, Meis1 skews hematopoietic differentiation by suppressing erythroid while enhancing megakaryocytic progenitor differentiation. To identify the underlying transcriptional bases of these actions, we carried out microarray analysis to compare the various populations of cells developing in ES differentiation cultures in the presence and absence of Meis1 induction. ES cells with dox-inducible Meis1 (A2lox.Meis1) were differentiated as embryoid bodies (EBs) for 6 days before plating on OP9-GFP cell monolayers and cytokines, and treated with (+) or without (-) doxycycline (dox). Cells were purified by cell sorting on day 7 or 8 into various populations based on levels of CD41 expression: GFP-CD41-, GFP-CD41+ (day 7) and GFP-CD41-,GFP-CD41int, and GFP-CD41hi (day 8). Gene expression of these purified populations was determined by microarray analysis.

Project description:The homeodomain protein Meis1 is essential for definitive hematopoiesis and vascular patterning in the mouse embryo. Meis2, another member of the same family, shares 82% protein identities with Meis1. Our present study suggested Meis2 exerts two distinguishable effects in differentiating ES cells. First, it increases the numbers of hematopoietic progenitors and extends their persistence in culture. Second, Meis2 skews hematopoietic differentiation by suppressing erythroid while enhancing megakaryocytic progenitor differentiation. To identify the underlying transcriptional bases of these actions, we carried out microarray analysis to compare the various populations of cells developing in ES differentiation cultures in the presence and absence of Meis2 induction. ES cells with dox-inducible Meis2 (A2lox.Meis2) were differentiated as embryoid bodies (EBs) for 6 days before plating on OP9-GFP cell monolayers and cytokines, and treated with (+) or without (-) doxycycline (dox). Cells were purified by cell sorting on day 7 or 8 into various populations based on levels of CD41 expression: GFP-CD41-, GFP-CD41+ (day 7) and GFP-CD41-,GFP-CD41int, and GFP-CD41hi (day 8). Gene expression of these purified populations was determined by microarray analysis.

Project description:This SuperSeries is composed of the following subset Series: GSE34537: Mesp1 induces a subset of hematopoietic-associated transcription factors in ES cell-derived Flk1+Tie2+ endothelium GSE34541: Identification of gene targets of Meis2 GSE34543: Identification of gene targets of Meis1 Refer to individual Series

Project description:Transcriptional and clonotype analysis aimed at investigation of the structure, stability and dynamics of the human memory B cell pool, using peripheral blood samples collected from two healthy donors with an interval of 10 or 6 years.