Project description:The goal of this experiment was to use global gene expression profiling to assess the global genetic reprogramming of spleen XCR1+ DC early after MCMV infection in vivo, using on Affymetrix Mouse Gene 1.0 ST Array. Comparison of the gene expression programs of XCR1+ dendritic cells isolated from the spleen of untreated versus d1.5 MCMV-infected wild-type C57BL/6 mice.

Project description:The goal of this experiment was to use global gene expression profiling to assess the global genetic reprogramming of different types of splenic mononuclear phagocytes early after MCMV infection in vivo. This study includes new samples (GSM3178486-GSM3178497; available below) profiling splenic CD11b+ conventional dendritic cells (cDC2), classical monocytes (cMo) and red pulp macrophages (RPM) from untreated or day 1.5 MCMV-infected mice together with re-analysis of previously published data in order to examine the similarities in the pDC gene expression profiles across datasets. The complete processed data for all analyzed samples, with and without batch correction, are available at the foot of this series. Included is a text file with a list of all re-analyzed samples and data processing protocols for the re-analysis.

Project description:The expression of the XCR1 chemokine receptor univocally identifies all type 1 conventional dendritic cells (cDC1) throughout the body. The gene encoding its ligand, XCL1, is expressed constitutively by innate lymphoid cells such as natural killer (NK) cells. The evolutionary conservation of XCR1, XCL1 in vertebrates suggests that they play a critical, yet uncharacterized, role in immune responses. Here we showed using mouse cytomegalovirus (MCMV) infection, that the XCL1/XCR1 axis promoted the intra-splenic repositioning of cDC1 towards IFN--producing NK cells forming superclusters around infected cells. There, cDC1 and NK cells engaged into physical interactions enhancing their respective production of IL-12 and IFN-. This feed-forward mechanism also led to NK cell production of GM-CSF, which upregulated CCR7 on cDC1, instructing them to migrate into the T cell area for the priming of CD8+ T cells. In conclusion, we identified a novel mechanism through which NK cells boost the relay between innate and adaptive immunities by regulating the spatiotemporal functions of cDC1.

Project description:MIcroRNA expression profiling of primary murine splenic dendritic cells (Flt3L expanded) comparing untreated cells to cells infected with Influenza A or stimulated with polyI:C in vitro.

Project description:XCR1 is known as a signature receptor of type 1 conventional dendritic cells To compare the transcriptomic differences of WT and XCR1 deficient type 1 conventional dendritic cells, we conducted microarry using type 1 conventional dendritic cells from WT and XCR1 KO mice

Project description:The aim of the project is to understand the heterogeneity of murine plasmacytoid dendritic cells (pDC) for interferon I production. For this end we want to perform RNAseq on splenic pDC at ground state and also after infection of mice with MCMV at different time points.

Project description:Dendritic cells (DC) play a crucial role in generating and maintaining antiviral immunity. While DC are implicated in the antiviral defense by inducing T cell responses, they can also become infected by Cytomegalovirus (CMV). CMV is not only highly species-specific but also specialized in evading immune protection, and this specialization is in part due to characteristic genes encoded by a given virus. Here, we investigated whether RCMV can infect XCR1+ DC and if infection of DC alters the expression of cell surface markers and migration behavior. We demonstrate that wild-type RCMV and a _vxcl1 mutant virus infect splenic rat DC ex vivo and identify viral assembly compartments. Replication-competent RCMV reduced XCR1 and MHCII surface expression. Further, gene expression of infected DC was analyzed by single cell RNA-sequencing. RCMV infection reverted a state of DC activation that was induced by DC cultivation. On the functional level, we observed impaired chemotactic activity of infected XCR1+ DC compared to mock treated cells. We therefore speculate that as a result of RCMV infection, DC exhibit diminished XCR1 expression and are thereby inhibited from the lymphocyte crosstalk.

Project description:Murine Cytomegalovirus (MCMV) infection leads to the activation of various immune cells, including dendritic cells (DCs) and Natural Killer (NK) cells. This activation is partly driven by innate cytokines including IFN-I, which are induced early after infection. The objective was to address the role of different innate cytokines in shaping DC subsets and NK cell responses, in particular the role of cell intrinsic responses to IFN-I. In order to decipher the specific impact of cell-intrinsic IFN-I on cell subsets, we performed a genome-wide expression analysis on CD45.1 WT and CD45.2 IFNAR-/- splenic conventional DC (cDC) subsets and NK cells isolated from C57BL/6 [CD45.1 WT / CD45.2 IFNAR-KO] mixed bone marow chimera mice. This study includes data from cDC subsets (CD8a and CD11b) and NK cells purified by flow cytometry sorting from the spleen of bone marrow chimera (BMC) mice, under steady-state or MCMV condition. Two independent replicates were made for each cell type, from two independent pools of spleens from uninfected or d1.5 MCMV-infected BMC 5-8 mice, and were hybridized on 3 separate batches of gene chips.

Project description:The goal of this experiment was to use global gene expression profiling to assess the global genetic reprogramming of spleen XCR1+ DC early after MCMV infection in vivo, using on Affymetrix Mouse Gene 1.0 ST Array.

Project description:Murine Cytomegalovirus (MCMV) infection leads to early activation of various immune cells, including B and T lymphocytes, before the actual initiation of antigen-specific adaptive immunity. This activation is partly driven by innate cytokines, including type I interferon (IFN), which are induced early after infection. The objective of this study was to address the role of type I IFN in shaping early/innate B and T cell responses to a primary acute viral infection. In order to decipher the specific impact of IFN-I on cell subsets, we performed a genome-wide expression analysis on WT splenic B and CD8 T lymphocytes isolated from C57BL/6 [CD45.1 WT / CD45.2 IFNAR-KO] mixed bone marrow chimera mice. This study complements series GSE39555, which focused on early responses of NK cells and of the two subsets of conventional dendritic cells. This study includes data from B and CD8 T lymphocytes purified by flow cytometry sorting from the spleen of bone marrow chimera (BMC) mice, under steady-state or MCMV conditions. Two independent replicates were made for each cell type, from two independent pools of spleens from uninfected or d1.5 MCMV-infected BMC 5-8 mice, and were hybridized on 3 separate batches of GeneChips.