Project description:Loss of the MHC Class II accessory molecule H2-O has been shown to alter the peptide repertoir presented by MHC Class II molecules. Using scRNA-Seq we interrogated what outcomes altered antigen presentation was having on the naïve CD4 T cell milieu.

Project description:We used RNA-Seq to identify differential gene expression in LAP+ vs. LAP- Gamma-delta T-cells. We report a signature of 407 genes that were enriched in TCRgd+LAP+ vs. TCRgd+LAP- cells with p<0.05. Among the up-regulated genes, we found increased expression of genes related to antigen presentation, including MHC class II molecules (H2-Aa, H2-Ab1, H2-Eb1 and H2-Eb2), CD40 and CD86

Project description:The magnitude of CD8+ T lymphocyte (CTL) responses to infection is a function of the available naïve T cell repertoire, combined with the context and duration of antigen presentation. Whilst T cell repertoires are relatively easily studied, the context and abundance of epitopes presented on infected cells and dendritic cells (DCs) and their subsequent impact on CTL responses are generally poorly understood. Using quantitative mass spectrometry, we identified and quantified the abundance of 21 class 1 Major Histocompatibility Complex molecule (MHCI)-restricted influenza A virus (IAV)-derived peptides following either direct presentation or cross-presentation. All identified peptides, including seven novel epitopes, elicited T cell responses in infected C57BL/6 mice. Quantitation of IAV epitopes displayed via direct presentation showed a maintenance of relative epitope abundance across distinct cell types, reflecting common antigen processing mechanisms. Comparison of epitope levels displayed via direct presentation and cross-presentation revealed a broad range of directly presented epitope abundances, which was normalised during cross-presentation. Further, we observed a clear disparity in the abundance of the two key immunodominant IAV antigens, wherein direct infection drove optimal nucleoprotein (NP)366-374 presentation, while cross-presentation was optimal for acid polymerase (PA)224-233 presentation. This study provides a detailed dissection of viral pMHCI abundance after infection and reveals the importance of both direct and cross-presentation in driving dominant CTL responses. The study also demonstrates how empirical assessment of epitope abundance in both modes of antigen presentation is necessary to fully understand the immunogenicity and response magnitude to T cell epitopes.

Project description:The magnitude of CD8+ T lymphocyte (CTL) responses to infection is a function of the available naïve T cell repertoire, combined with the context and duration of antigen presentation. Whilst T cell repertoires are relatively easily studied, the context and abundance of epitopes presented on infected cells and dendritic cells (DCs) and their subsequent impact on CTL responses are generally poorly understood. Using quantitative mass spectrometry, we identified and quantified the abundance of 21 class 1 Major Histocompatibility Complex molecule (MHCI)-restricted influenza A virus (IAV)-derived peptides following either direct presentation or cross-presentation. All identified peptides, including seven novel epitopes, elicited T cell responses in infected C57BL/6 mice. Quantitation of IAV epitopes displayed via direct presentation showed a maintenance of relative epitope abundance across distinct cell types, reflecting common antigen processing mechanisms. Comparison of epitope levels displayed via direct presentation and cross-presentation revealed a broad range of directly presented epitope abundances, which was normalised during cross-presentation. Further, we observed a clear disparity in the abundance of the two key immunodominant IAV antigens, wherein direct infection drove optimal nucleoprotein (NP)366-374 presentation, while cross-presentation was optimal for acid polymerase (PA)224-233 presentation. This study provides a detailed dissection of viral pMHCI abundance after infection and reveals the importance of both direct and cross-presentation in driving dominant CTL responses. The study also demonstrates how empirical assessment of epitope abundance in both modes of antigen presentation is necessary to fully understand the immunogenicity and response magnitude to T cell epitopes.

Project description:Given the importance of sustained antigen presentation in maintenance of lymph node (LN) immune responses, we hypothesized that vaccine antigen availability and antigen-presenting cell (APC) populations may affect LN expansion. Compared to LNs of mice given the full MPS vaccine, LNs of mice given an MPS vaccine without antigen became prominently less enlarged and contracted sooner.To identify potential mediators of this differential, antigen-dependent response, we next focused the analysis of our scRNA-seq dataset on LN APC populations.

Project description:We used RNA-Seq to identify differential gene expression in LAP+ vs. LAP- Gamma-delta T-cells. We report a signature of 407 genes that were enriched in TCRgd+LAP+ vs. TCRgd+LAP- cells with p<0.05. Among the up-regulated genes, we found increased expression of genes related to antigen presentation, including MHC class II molecules (H2-Aa, H2-Ab1, H2-Eb1 and H2-Eb2), CD40 and CD86 RNA-Seq of TCRgd+LAP+ versus TCRgd+LAP- cells harvested from mouse spleen and Peyer's patches; began with 20 mice for two independent experiments (10 mice each); samples were pooled and for each experiment resulted in one LAP- and one LAP+ sample for RNA-SEQ, or four samples in total; The two LAP+ were combined, resulting in three samples in total for RNA-Seq.

Project description:Murine bone marrow derived macrophages were infected with Leishmania major or Leishmania donovania promastigotes, allowed to phagocytose latex beads or not treated. Gene expression profiles were compared to identify i) the effect of Leishmania infection; ii) the differences in effects between L. major and L. donovani; and iii) the effect of pahgocytosis of latex beads.

Project description:Leishmaniasis is a disease caused by the protozoan parasite Leishmania known to affect millions of individuals worldwide. In recent years, we have established the critical role played by Leishmania zinc-metalloprotease GP63 in the modulation of host macrophage signaling and functions, favouring its survival and progression within its host. Leishmania major lacking GP63 was reported to cause limited infection in mice, however it is still unclear how GP63 may influence the innate inflammatory response and parasite survival in an in vivo context. Therefore, we were interested in analyzing the early innate inflammatory events upon Leishmania inoculation within mice and establish whether Leishmania GP63 influences this initial inflammatory response. Experimentally, L. major WT, L. major GP63 KO or L. major GP63 rescue were intraperitoneally inoculated in mice and inflammatory cells recruited were characterized microscopically and by flow cytometry (number and cell type), and their infection determined. Pro-inflammatory markers such as cytokines, chemokines and extracellular vesicles (EVs, e.g. exosomes) were monitored and proteomic analysis was performed on exosome contents. Data obtained from this study suggest that Leishmania GP63 does not significantly influence the pathogen-induced inflammatory cell recruitment, but rather their activation status and effector function. Concordantly, internalization of promastigotes during early infection could be influenced by GP63 as less L. major KO amastigotes were found within host cells and appear to maintain in host cells over time. Collectively this study provides a clear analysis of innate inflammatory events occurring during L. major infection and further establish the prominent role of the virulence factor GP63 to provide favorable conditions for host cell infection.

Project description:We induced TREM2 expression at 2 months of age in our 5xFAD/TREM2 mouse models and harvested the animals at 5 months of age. The single cells from the cortex were isolated and subjected to the single-cell RNA seq to investigate the effects of TREM2 on microglia transcriptomic profiles in the middle stage of amyloid development. Our data showed that TREM2-WT induced the mTOR/EIF2 signaling pathways and restricted the disease associated microglia (DAM) signature. In contrast TREM2-R47H variant significantly upregulated the MHC class II molecules, enriched the antigen presentation pathway, and exacerbated a signature of antigen presentation contributing to enhanced amyloid pathology.

Project description:Cutaneous leishmaniasis (CL) is responsible for a significant burden of the global incidence of neglected tropical diseases, with 12 million people currently infected with Leishmania parasites. CL contains a spectrum of disease manifestations, ranging from self-healing skin lesions to permanent disfigurations. Currently there is no vaccine available, and many patients are refractory to treatment, emphasizing the need for new therapeutic targets. Previous work has demonstrated the necessity of macrophage HIF-alpha-mediated lymphangiogenesis to achieve efficient wound resolution during murine L. major infection. Here we investigate the role of macrophage HIF-alpha signaling separate from lymphangiogenesis, employing RNA-Seq transcriptome analysis on macrophages with intact or compromised HIF-alpha signaling, LysMCreARNTf/+ or LysMCreARNTf/f respectively, during L. major infection and under pro-inflammatory stimulus. We report that L. major infection alone is enough to induce HIF-alpha dependent transcriptomic changes while infection with L. major and pro-inflammatory stimuli administration instigates transcriptomic changes both dependent and independent of HIF-alpha signaling. Additionally, by coupling transcriptomic analysis with several pathway analyses, we found during L. major infection and in a pro-inflammatory environment, HIF-alpha suppresses pathways involved in protein translation such as the ribosome pathway and EIF2 signaling. Together this work supports infection with L. major induces a HIF-alpha transcriptomic program, but only in a pro-inflammatory environment does HIF-alpha suppress protein translation.