Project description:A significant fraction of sudden death in young adults is due to myocarditis, an inflammatory disease of the heart, most often caused by viral infection. Here we used single-cell and spatially resolved RNA sequencing (RNA-seq) to study the cellular and spatial  heterogeneity of myocarditic processes in the hearts of reovirus-infected neonatal mice at multiple predetermined time points after initial infection at the primary site of infection. We further applied these technologies to study the innate response to reovirus infection in the intestine. In addition, we performed time-dependent single-cell RNA-seq (scRNA-seq) of cardiac tissues of mice infected with a reovirus point mutant that does not cause myocarditis. To establish viral tropism, we implemented molecular enrichment of non-polyadenylated viral transcripts that were otherwise poorly represented in the transcriptomes. Our measurements give insight into the cardiac cell-type specificity of innate immune responses, into the tropism of the virus in the intestine and the heart, into the transcriptional states of cell types involved in the production of inflammatory cytokines and the recruitment of circulating immune cells, and into the cell type specific gene expression in a spatial context. Overall, our data identify cellular interactions and cell-type specific host responses during reovirus-induced myocarditis. 

Project description:GPR15 is an orphan G-protein coupled receptor and its expression is abundant among T cells in the large intestine lamina propria. We used microarrays to examine charateristics of GPR15- vs GPR15+ CD4+ T cells in LILP and identified distinct classes of up-regulated genes in GPR15+ CD4+ T cells. We have generated GFP knock-in mice in GPR15 locus and used GFP as a maker for GPR15 expression. In heterozygous mice, GPR15+CD4+ T cells and GPR15-CD4-T cells were sorted and RNA was prepared from them.

Project description:Non-coding RNAs (ncRNAs) are critical regulators of viral infection and inflammatory responses. However, the roles of ncRNAs in acute myocarditis (AM)M) remain unclear.To identify ncRNAs involved in viral myocarditis pathogenesis by RNA-seq.

Project description:GPR15+ vs GPR15- tumor-associated Tregs were sorted from colorectal cancer mice (Foxp3-RFP x GPR15-GFP)

Project description:Inflammatory diseases such as Aicardi-Goutieres Syndrome (AGS) and severe systemic lupus erythematosus (SLE) are generally lethal disorders that have been traced to defects in the exonuclease Trex1 (DNAseIII). Mice lacking Trex1 similarly die at an early age through comparable symptoms, including inflammatory myocarditis, through chronic activation of the STING (stimulator of interferon genes) pathway. Here we demonstrate that phagocytes rather than myocytes are predominantly responsible for causing inflammation, an outcome that could be alleviated following adoptive transfer of normal bone marrow into Trex1-/- mice. Trex1-/- macrophages did not exhibit significant augmented ability to produce pro-inflammatory cytokines compared to normal macrophages following exposure to STING-dependent activators, but rather appeared chronically stimulated by genomic DNA. These results shed molecular insight into inflammation and provide concepts for the design of new therapies. Total RNA obtained from wild type (WT), Trex1 deficient (TKO), STING deficient (SKO), or Trex1 and STING double deficient (STKO) mouse Heart

Project description:GPR15 is an orphan G-protein coupled receptor and its expression is abundant among T cells in the large intestine lamina propria. We used microarrays to examine charateristics of GPR15- vs GPR15+ CD4+ T cells in LILP and identified distinct classes of up-regulated genes in GPR15+ CD4+ T cells.

Project description:The aim of present study was to study the changes in peripheral blood gene expression profile induced by smoking. RNA was extracted from the PBMCs of 48 persons with detailed smoking history (24 were non-smokers, 16 were current smokers and 8 were ex-smokers). Gene expression profile was evaluated with the RNA sequencing and results were analyzed separately in males (24) and females (24). In male smokers, 13 genes were statistically significantly (FDR < 0.1) differentially expressed. In female smoker, 5 genes were differentially expressed with the FDR<0.1. Most of the differentially expressed genes were different between male and female smokers. However, GPR15, expression was changed in male and female smokers compared to non-smokers. Further analysis on the methylation of the genes GPR15 identified significant hypomethylation in smokers compared to non-smokers. GPR15 is the chemo-attractant receptor that regulates T-cell migration and immunity. Up-regulation of GPR15 could explain to some extend the health hazards of smoking for chronic inflammatory diseases

Project description:The orphan chemoattractant receptor GPR15 is important for homing T lymphocytes to the large intestine, thereby maintaining intestinal immune homeostasis. However, the molecular mechanisms underlying the regulation of GPR15 expression remain elusive. Here we show a central role of the aryl hydrocarbon receptor (Ahr) in promoting GPR15 expression both in mice and human, thus gut homing of T lymphocytes. Mechanistically, Ahr directly binds to open chromatin regions of the Gpr15 locus to enhance its expression. Ahr transcriptional activity in directing GPR15 expression was modulated by two transcription factors, Foxp3 and RORγt, both of which are expressed preferentially by gut Tregs in vivo. Specifically, Foxp3 interacted with Ahr and enhanced Ahr DNA binding at the Gpr15 locus, thereby promoting GPR15 expression. In contrast, RORγt plays an inhibitory role at least in part by competing with Ahr binding to the Gpr15 locus. Our findings thus demonstrate a key role for Ahr in regulating Treg intestinal homing under the steady state and during inflammation, and the importance of Ahr-RORγt-Foxp3 axis in regulating gut homing receptor GPR15 expression by lymphocytes.

Project description:Although a mucosal and cutaneous chemokine ligand for G protein –linked receptor GPR15 was recently identified, the physiological role of GPR15 remains yet elusive. In blood, in has been shown that smoking is, to date, the only specific condition leading to an increase in GPR15+ T cells. We therefore used transcriptome sequencing to describe GPR15-expressing blood T cells in more detail.

Project description:Myocarditis is an inflammatory disease in the heart and is mainly caused by viral infections. Viral myocarditis has been proposed to be divided into three phases; the acute viral phase, the subacute immune phase, and the chronic cardiac remodeling phase. Although individualized therapy should be applied depending on the phase, no clinical or experimental studies have found biomarkers that distinguish between the three phases of myocarditis. Theiler’s murine encephalomyelitis virus (TMEV) belongs to the genus Cardiovirus, and can cause myocarditis in susceptible mouse strains. Using this novel model for viral myocarditis induced with TMEV, we conducted multivariate analysis including echocardiography, serum troponin and viral RNA titration, and microarray for identifying the biomarker candidates that discriminate the three phases. Using C3H mice infected with TMEV on 4, 7, and 60 days post infection (p.i.), we conducted bioinformatics analyses, including principal component analysis (PCA) of microarray data, since our traditional cardiac and serum assays, including two-way comparison of microarray data, did not lead to the identification of a single biomarker. PCA separated heart samples clearly between the groups of 4, 7, and 60 days p.i. Representative genes contributing to the separation were as follows: 4 and 7 days p.i., innate immunity-related genes, such as Irf7, and Cxcl9; 7 and 60 days p.i., acquired immunity-related genes, such as Cd3g and H2-Aa; and cardiac remodeling-related genes, such as Mmp12 and Gpnmb. Here, sets of molecules, but not a single molecule, identified by the unsupervised PCA, were found to be useful as the phase-specific biomarkers. Five mice were infected with TMEV intraperitoneally and hearvested their hearts on 4, 7, and 60 days post infection, respectively, for RNA isolation and hybridization on Affymetrix microarrays. As the control groups, age-matched uninfected mice were prepared.