Project description:Human Tregs isolated from PBMCs were sorted into 4 different subpopulations based on IFNg and IL-10 production and were performed mRNA-seq.

Project description:Microarray used to detail the global gene transcription underlying sorted IFNg+ and IFNg- Tregs (CD4+CD25+CD127lo) and Tconv (CD4+CD25-CD127+) for fresh (unexpanded) and 14 day expanded cells from human blood. Treg and Tconv were FACS isolated from five healthy subjects (median age of 26, range 22-30). Sorted cells were separated into two groups: the first group was stimulated for 4 hours with PMA/ionomycin and labeled with the IFNg cytokine capture kit (Miltenyi Biotech) followed by FACS isolation of IFNg- and IFNg+ populations. The second set was expanded to day 14 prior to reactivation and cytokine cell capture. For each IFNg sorted population, cells were pelleted and flash frozen before RNA isolation and processing.

Project description:Ex vivo generated tolerogenic dendritic cells (tDCs) have a strong therapeutic potential to induce antigen-specific iTreg upon infusion in patients. We previously demonstrated that IL-10 tDC-primed T cells are very suppressive and produce IL-10. Here, we show that the majority of the IL-10+ T cells co-express IFNγ, giving rise to the question whether these cells are proinflammatory or regulatory. Whole genome gene expression analysis revealed a strong regulatory gene profile and a suppressed Th1 gene profile for the IL-10/ IFNγ co-expressing CD4+ T cells.

Project description:Gene expression studies comparing IFNg+ Tregs versus IFNg- Tregs from human peripheral blood Ex vivo sorted Tregs (CD25highCD127neg) were stimulated for 4 hours and IFNg-secreting cells were detected by a IFNg-capture kit. The samples were resorted based on IFNg expression.

Project description:IL-27 is a potent antagonist of TH1-mediated inflammation, but the basis for this effect is not fully understood. Recent studies identified a population of T-bet+ CXCR3+ Treg that limit TH1-mediated immune pathology. The studies presented here demonstrate that IL-27-mediated STAT1 activation promotes Treg expression of T-bet and CXCR3. Infection with Toxoplasma gondii induced a similar Treg population that limits T cell responses and this population at mucosal sites is IL-27-dependent. Furthermore, transfer of Treg ameliorated the infection-induced CD4+ T cell-mediated pathology observed in IL-27p28-/- mice. Although IFN-γ promoted a similar population of cells in the periphery, it did not compensate for the absence of IL-27 at mucosal sites and microarray analysis revealed that Treg exposed to either cytokine have distinct transcriptional profiles. These findings suggest that IFN-γ and IL-27 have different roles in Treg biology but define IL-27 as a key cytokine that promotes the development of Treg specialized to control TH1 immunity. Three conditions were analyzed across two timepoints. Inducible regulatory T cells (iTreg) were generated in vitro in the presence of IL-27, IFNg or under 'Neutral' conditions as a control. Samples were collected at 10 hours and 2 days during the culture period. Three biological replicates were used for each condition.

Project description:Gene expression studies comparing IFNg+ Tregs versus IFNg- Tregs from human peripheral blood

Project description:Human Treg IL-12 stimulation

Project description:Transcriptional profiling and gene expression profiling analysis of sorted CD8+IL-10+ T cells compared to CD8+IL-10- T cells using IL-10-GFP(tiger) reporter mice

Project description:Transcriptom analysis of Treg subpopulations based on CD4,CD25,CD127,CCR4,CD45RO and CD95 expression

Project description:The inflammasome initiates innate defense and inflammatory response by activating caspase-1 and pyroptotic cell death in myeloid cells1,2. It is comprised of an innate immune receptor/effector, pro-caspase-1 and a common adaptor molecule, ASC (apoptotic speck-containing protein with a CARD). Consistent with their pro-inflammatory function, inflammasome components including caspase-1, ASC and NLRP3, are known to exacerbate autoimmunity during experimental autoimmune encephalomyelitis (EAE) by enhancing IL-1 and IL-18 secretion in myeloid cells3-6. Here we show an unexpected function of a DNA-binding inflammasome effector, AIM2 (Absent in Melanoma 2)7-10, in restraining autoimmunity by performing EAE in both whole body and Treg-specific deletion of Aim2–/– mice. AIM2 is highly expressed by human and mouse Treg cells and it is essential to attenuate EAE. RNA-seq, biochemical and metabolic analyses revealed that AIM2 attenuates mTOR, Myc and immune-metabolic functions in both Treg cells isolated in vivo and Treg cells induced in vitro with TGF-. Importantly, we found AIM2 physically interacted with RACK1 in Treg cells to facility the PP2A/RACK1/Akt-mTOR signaling, which is identified as a central component downstream of AIM2 that controls Treg cell function and stability. While AIM2 is generally accepted as an inflammasome effector in myeloid cells, this report reveals a previously unappreciated T cell-intrinsic role of AIM2 in maintaining Treg cell function to restrain autoimmunity. This is achieved by diminishing Akt-mTOR signaling to regulate Treg stability under inflammation, and altering immune-metabolism in Treg cells.