Project description:We analyzed the transcriptome differences of wild-type and ArhGEF1-deficient (Arhgef1-/-) type-2 conventional dendritic cells (cDC2s) in spleen. Wild-type or ArhGEF1-deficient (Arhgef1-/-) bone marrow cells were transferred into lethal irradiated CD45.1 mice. 8 weeks later, splenic cDC2s were purified and prepared for RNA-seq analysis. The gene expression profiles of CD97-, Gα13- and ArhGEF1-deficient cDC2s were highly similar, providing evidence that these molecules function in the same pathway.
Project description:Alternative splicing (AS) plays an important role in the development and activation of B cells. RNA-binding proteins (RBPs) have emerged as critical players in AS regulation. RNA-binding protein hnRNPF regulates AS of several important genes, such as c-Src, Bcl-xl, Mcl-1 and Tcf3 in tumor cells, but its function in B cell biology is not known.Here we constructed CD19-Cre mediated hnRNPF conditional knockou mice and performed RNA-sequencing to profile mRNA expression and AS regulated by hnRNPF in splenic B cells.
Project description:We analyzed the transcriptome differences of wild-type, CD97- and Gα13-deficient (Adgre5-/- and CD11c-cre x Gna13fl/fl) type-2 conventional dendritic cells (cDC2s) in spleen. Three technical repeats of ~10^5 cells per sample from each of one mouse were included. Compared to wild-type cDC2s, CD97- and Gα13-deficient cDC2s differentially expressed many genes, but CD97- and Gα13-deficient cDC2s were almost the same. GSEA showed that Mrtf-a dependent genes were upregulated in CD97- and Gα13-deficient cDC2s, which code for cytoskeleton proteins. These data support that CD97-Gα13 signaling regulates splenic cDC2 motility by the actin cytoskeleton.
Project description:We analyzed the transcriptome differences of wild-type and IRF4-deficient (CD11c-cre x Irf4fl/fl) type-2 conventional dendritic cells (cDC2s) in spleen. Wild-type or IRF4-deficient (CD11c-cre x Irf4fl/fl) bone marrow cells were transferred into lethal irradiated CD45.1 mice. 8 weeks later, splenic cDC2s were purified and prepared for RNA-seq analysis. Three technical repeats of ~10^5 cells per sample from each of one mouse were included. CD97 was downregulated in IRF4-deficient cDC2s. GSEA showed that upregulated and downregulated genes in CD97-deficient cells were strongly enriched in IRF4-regulated genes. These data are in accord with CD97 acting within the IRF4 gene-expression network.