Project description:CD4+ and CD8+ T cells can reciprocally differentiate into Th/Tc1, Th/Tc17 and Th/Tc22. Although alloreactive Th/Tc1 cells play a critical role in initiating pathogenesis of gut acute graft-versus-host disease (Gut-aGVHD), the pathogenic T cells in steroid-resistant Gut-aGVHD (SR-Gut-aGVHD) remains unclear. Here, we show that in murine models of SR-Gut-aGVHD, the pathogenesis is associated with reduction of IFN-g+ Th/Tc1 and IL-17A+IL-22- Th/Tc17 cells but expansion of IL-17-IL-22+ Th/Tc22, particularly Tc22 cells. The IL-22 from Th/Tc22 cells causes dysbiosis.

Project description:CD4+ memory T helper cells are organized in different subsets characterized by distinct functions and chemokine receptor expression patterns induced and maintained by divergent gene programs. We demonstrate here that identical chemokine receptor combinations are sufficient to separate analogous differentiated CD8+ memory T cell subsets with matching cytokine profiles. Tc2, Tc17 and Tc22 type CD8+ T cell subsets, in contrast to classical cytotoxic Tc1 and Tc17+1 cells, possess a CD4 helper type alike phenotype characterized by absent cytotoxicity and SLAMF7 expression as well their ability to express CD40L upon activation. Their highly disparate homing patterns and unique TCR repertoire associates them to distinct immune responses as compared to those cytotoxic CD8+ T cells exert their role in. The dermal T cell gene expression signature and enrichment in psoriasis patients indicates that peripheral helper type CD8+ T cells represent a circulatory variant of skin resident cells.

Project description:Autoimmune diseases are characterized by regulatory deficit in both the CD4+ and CD8+ T-cell compartments. We have shown that CD8+ T-cells associated with acute relapse of multiple sclerosis are significantly deficient in their immune suppressive ability. We hypothesized that distinct CD8+ cytotoxic T-cell (Tc) lineages, determined by cytokine milieu during naïve T-cell differentiation, may harbor differential ability to suppress effector CD4+ T-cells. We differentiated purified human naïve CD8+ T-cells in vitro toward Tc0 (media control), Tc1 and Tc17 lineages. Using in vitro flow cytometric suppression assays, we observed that Tc0 and Tc17 cells had similar suppressive ability. In contrast, Tc1 cells showed significant loss of suppressive ability against ex vivo CD4+ T-cells and in vitro-differentiated Th0, Th1 and Th17 cells. Of note, Tc1 cells were also suboptimal in suppressing CD4-induced acute xenogeneic graft versus host disease (xGVHD) in vivo. Tc subtypes derived under various cytokine combinations revealed that IL-12-containing conditions resulted in less suppressive cells exhibiting dysregulated cytotoxic degranulation. RNASeq transcriptome analyses indicated differential regulation of inflammatory genes and enrichment in GM-CSF-associated pathways. These studies provide insights into the role of T-cell differentiation in CD8 suppressive biology and may reveal therapeutically targetable pathways to reverse suppressive deficit during immune-mediated disease.

Project description:CD4+ and CD8+ T cells can reciprocally differentiate into Th/Tc1, Th/Tc17 and Th/Tc22. Although alloreactive Th/Tc1 cells play a critical role in initiating pathogenesis of gut acute graft-versus-host disease (Gut-aGVHD), the pathogenic T cells in steroid-resistant Gut-aGVHD (SR-Gut-aGVHD) remains unclear. Here, we show that in murine models of SR-Gut-aGVHD, the pathogenesis is associated with reduction of IFN-g+ Th/Tc1 and IL-17A+IL-22- Th/Tc17 but expansion of IL-17-IL-22+ Th/Tc22, particularly Tc22 cells. IL-22 from Th/Tc22 cells causes dysbiosis. Using a Gut-aGVHD model induced by alloreactive IFN-g-/- CD8+ T cells, we show that the Gut-aGVHD pathogenesis requires both dysbiosis and depletion of CX3CR1hi mononuclear phagocytes (MNP) that regulate intestinal bacterial translocation. Absence of IFN-g leads to preferential expansion of Tc22 that induce dysbiosis by augmenting RegIIIg production, and depletion of CX3CR1hi MNP via its PD-1 interaction with tissue PD-L1. Interestingly, SR-Gut-aGVHD is also associated with depletion of CX3CR1hi MNP that reduces expansion of Tc22 under steroid treatment. Our studies indicate that expansion of Th/Tc22, dysbiosis, and depletion of CX3CR1hi MNP cells play critical roles in SR-Gut-aGVHD pathogenesis. These results provide new avenue towards studies in patients and call for caution in clinical testing of IL-22 agonists or IFN-g antagonist in patients.

Project description:IL-17-producing cells are important mediators of graft-versus-host disease (GVHD) after allogeneic stem cell transplantation (SCT). Here we demonstrate that a distinct CD8+ Tc17 population develops rapidly after SCT but fails to maintain lineage fidelity such that they are unrecognizable in the absence of a fate reporter. Tc17 differentiation is dependent on alloantigen presentation by host-DC together with IL-6. Tc17 cells express high levels of multiple prototypic lineage-defining transcription factors (e.g. RORgt, T-bet) and cytokines (e.g. IL-17A, IL-22, IFNg, GM-CSF, IL-13). Targeted depletion of Tc17 early after transplant protects from lethal acute GVHD, however Tc17 cells are non-cytolytic and fail to mediate graft–versus–leukemia (GVL) effects. Thus, the Tc17 differentiation program during GVHD culminates in a highly plastic, hyper-inflammatory, poorly-cytolytic effector population which we term inflammatory Tc17 (iTc17). Since iTc17 mediate GVHD without contributing to GVL, therapeutic inhibition of iTc17 development in a clinical setting represents an attractive approach for separating GVHD and GVL. Single colour, Illumina MouseRef-8 v2.0 Beadarrays.

Project description:A plethora of data supports a major role of CD4+ and CD8+ T lymphocytes for the initiation, progression and maintenance of allergic contact dermatitis (ACD). However, in-depth understanding of the underlying molecular mechanisms is still limited. NFATc1 , a central component of the Ca++-Calcineurin-NFAT-signalling network, plays an essential role in T cell activation. We therefore investigated its impact on contact hypersensitivity (CHS), the mouse model for ACD. The CHS response to 2,4,6-trinitrochlorobenzene (TNCB) was diminished in Nfatc1fl/flxCd4-cre mice (Nfatc1-/-) as compared to wild-type (WT) animals and associated with a lower percentage of interleukin (IL)17-producing CD8+T (Tc17) cells in both inflamed skin and draining lymph nodes (dLN). In vitro Tc17 polarization assays revealed that Nfatc1-/- CD8+ T cells have a reduced capacity to polarize into Tc17 cells. Applying single-cell RNA sequencing, we realized that NFATc1 controls the T cell differentiation fate. In the absence of NFATc1, CD8+ T cells favour the development of Interferon (IFN)-g-secreting CD8+ T (Tc1) lymphocytes while in its presence they turn into Tc17 cells. Finally, we showed the adoptive transfer of TNCB-sensitized WT CD8+T cells rescued tThe CHS response could be rescued in naïve Nfatc1-/-mice by adoptive transfer of TNCB-sensitized WT CD8+T cells. Our data demonstrate that NFATc1 acts as a molecular switch controllcontrolsing the development of Tc17 cells and can be used as a target to alleviate surveilling CD8+T cell-mediated CHS responses.

Project description:Gene expression profiling of Tc1 and Tc17 CD8+ T cells

Project description:Psoriasis is an inflammatory, IL-17-driven skin disease in which autoantigen-induced CD8+ T cells have been identified as pathogenic drivers. In this study, we used single-cell RNA-seq to identify 11 transcriptionally diverse CD8+ T cell subsets in psoriatic and healthy skin. Among several inflammatory subsets enriched in psoriatic skin, we observed two Tc17 subsets that were metabolically divergent, developmentally related, and expressed CXCL13, which we found to be a biomarker of psoriasis severity. Despite high co-inhibitory receptor expression in the Tc17 clusters, a comparison of these cells with melanoma-infiltrating CD8+ T cells revealed upregulated cytokine, cytolytic, and metabolic transcriptional activity in the psoriatic cells that differed from an exhaustion program. Our findings provide a high-resolution view of cutaneous CD8+ T cells in psoriasis and healthy skin and shed light on their functional distinctions within the chronic pathologies of autoimmunity and cancer.

Project description:Gene expression profiling of human CD8+ CD161hi and CD161lo central and effector memory and naïve T cell subsets. The mechanisms by which IL-17 secreting cells are regulated have not been completely elucidated. We previously identified a population of rhodamine-effluxing memory CD8+ T cells with high expression of CD161 that contributes to immune reconstitution after lymphopenia-inducing chemotherapy. Here we find that CD161hi CD8+ T cells share transcriptional programming with Th17 cells, but most do not secrete IL-17 or proliferate to stimulation through the T cell receptor (TCR). Transcriptional analysis of subsets identified by expression of CD161 and CD62L revealed a novel mechanism of TCR signaling pathway regulation in CD161hi CD8+ T cells that is distinct from that described in anergic or tolerant cells and renders them functionally dependent on costimulation through innate cytokine receptors or CD28. CD161hi CD8+ T cells, induced to proliferate by a TCR signal delivered with costimulation, demonstrated plasticity that was dependent on the nature of costimulation and resulted in expansion of IL-17 secreting cells that could not proliferate to a TCR signal alone or differentiation to Tc1-like cells that proliferated to TCR stimulation in the absence of costimulation. The data show an association between TCR signaling pathway downregulation and type 17 programming in CD161hi CD8+ T cells, whose dysregulation could mediate IL-17 dependent inflammatory diseases.

Project description:The developmental origins of memory T cells remain controversial. During the expansion phase of acute viral infection, we identified a distinct subset of virus-specific CD8+ T cells that possessed unique characteristics including expression of CD62L, TCF-1 and Eomes; relative quiescence; expression of activation markers; and features of limited effector differentiation. These cells were a quantitatively minor subpopulation of the TCF-1+ pool and exhibited self-renewal, heightened DNA damage surveillance activity, and preferential long-term recall capacity. Despite features of memory and somewhat restrained proliferation during the expansion phase, this subset displayed evidence of stronger TCR signaling than other responding CD8+ T cells, coupled with elevated expression of multiple inhibitory receptors including PD-1, LAG-3, CTLA-4, CD5, and CD160. Indeed, genetic ablation of PD-1 and LAG-3 compromised the formation of this CD62Lhi TCF-1+ subset and subsequent CD8+ T cell memory. Although central memory phenotype CD8+ T cells (TCM) were formed in the absence of these cells, subsequent memory CD8+ T cell recall responses were compromised. Together, these results suggest a parsimonious model wherein there is more than a single developmental origin of long-term memory CD8+ T cells, and point to novel links between genome integrity, regulation of signal intensity during priming, inhibitory receptors and generation of long-term CD8+ T cell memory. To gain deeper insight into the biology of this CD62Lhi subset, we performed RNAseq on purified CD62Lhi, IL-7Rαhi and KLRG1hi subsets on day 8 post LCMV Arm infection and included naive P14 CD8+ T cells from uninfected mice as a control.