Project description:In cancer, persistent antigens drive CD8+ T cell differentiation into exhausted progenitor (Texprog) and terminally exhausted (Texterm) cells. However, how the extrinsic and intrinsic regulatory mechanisms cooperate during this process still remain not well understood. Here, we found STAT3 signaling plays essential roles in promoting intra-tumor Texterm cell development, by enhancing their effector functions and survival, which results in better tumor control. In tumor microenvironments, STAT3 is predominantly activated by IL-10 and IL-21, but not IL-6. Besides, STAT3 also plays critical roles in the development and function of terminally differentiated effector CD8+ T cells in acute infection. Mechanistically, STAT3 transcriptionally promotes the expression of effector function-related genes, while suppresses those expressed by progenitor Tex subset. Moreover, STAT3 functions in collaboration with BATF and IRF4 to mediate chromatin activation at effector gene loci. Thus, we have elucidated the roles of STAT3 signaling in terminally differentiated CD8+ T cell development, especially in cancer, which benefits developing more effective immunotherapies against tumor.

Project description:In cancer, persistent antigens drive CD8+ T cell differentiation into exhausted progenitor (Texprog) and terminally exhausted (Texterm) cells. However, how the extrinsic and intrinsic regulatory mechanisms cooperate during this process still remain not well understood. Here, we found STAT3 signaling plays essential roles in promoting intra-tumor Texterm cell development, by enhancing their effector functions and survival, which results in better tumor control. In tumor microenvironments, STAT3 is predominantly activated by IL-10 and IL-21, but not IL-6. Besides, STAT3 also plays critical roles in the development and function of terminally differentiated effector CD8+ T cells in acute infection. Mechanistically, STAT3 transcriptionally promotes the expression of effector function-related genes, while suppresses those expressed by progenitor Tex subset. Moreover, STAT3 functions in collaboration with BATF and IRF4 to mediate chromatin activation at effector gene loci. Thus, we have elucidated the roles of STAT3 signaling in terminally differentiated CD8+ T cell development, especially in cancer, which benefits developing more effective immunotherapies against tumor.

Project description:Overcoming CD8+ T cell "exhaustion" is critical in cancer immunotherapy. Intra-tumor CD8+ T cells contain stem-like (Texprog) and terminally differentiated (Texterm) subpopulations that mediate the persistence and potency of anti-tumor responses, respectively. How extrinsic signals via transcription factors control these two subsets are unclear. Previously, Bcl6 was shown to be selectively expressed by Texprog cells and promote their generation in chronic infection. Here, we found that in cancer, Bcl6 deficiency impacted, not the generation, but rather the persistence of Texprog cells, thus abrogating long-term tumor control. Bcl6 expression in CD8+ T cells is reciprocally regulated by TGF-?-SMAD2 and IL-2-STAT5 signaling pathways. Blimp1, regulated by IL-2 signaling, potently inhibited Bcl6 expression and its transcriptional activities; Prdm1 deficiency greatly improved the efficacy of anti-PD-1 therapy. Thus, we identified the TGF-?-Bcl6 and IL-2-Blimp1 antagonistic pathways in regulation of anti-tumor CD8+ T cells, which benefits cancer immunotherapy.

Project description:Overcoming CD8+ T cell "exhaustion" is critical in cancer immunotherapy. Intra-tumor CD8+ T cells contain stem-like (Texprog) and terminally differentiated (Texterm) subpopulations that mediate the persistence and potency of anti-tumor responses, respectively. How extrinsic signals via transcription factors control these two subsets are unclear. Previously, Bcl6 was shown to be selectively expressed by Texprog cells and promote their generation in chronic infection. Here, we found that in cancer, Bcl6 deficiency impacted, not the generation, but rather the persistence of Texprog cells, thus abrogating long-term tumor control. Bcl6 expression in CD8+ T cells is reciprocally regulated by TGF-?-SMAD2 and IL-2-STAT5 signaling pathways. Blimp1, regulated by IL-2 signaling, potently inhibited Bcl6 expression and its transcriptional activities; Prdm1 deficiency greatly improved the efficacy of anti-PD-1 therapy. Thus, we identified the TGF-?-Bcl6 and IL-2-Blimp1 antagonistic pathways in regulation of anti-tumor CD8+ T cells, which benefits cancer immunotherapy.

Project description:TGFb signaling is a major pathway associated with poor clinical outcome in patients with advanced metastatic cancers and non-response to immune checkpoint blockade, particularly in the immune-excluded tumor phenotype. While previous pre-clinical studies demonstrated that converting tumors from an excluded to an inflamed phenotype and curative anti-tumor immunity require attenuation of both PD-L1 and TGFb signaling, the underlying cellular mechanisms remain unclear. Recent studies suggest that stem cell-like CD8 T cells (TSCL) can differentiate into non-exhausted CD8 T effector cells that drive durable anti-tumor immunity. Here, we show that TGFb and PD-L1 restrain TSCL expansion as well as replacement of progenitor exhausted and dysfunctional CD8 T cells with non-exhausted IFNghi CD8 T effector cells in the tumor microenvironment (TME). Blockade of TGFb and PD-L1 generated IFNghi CD8 T effector cells with enhanced motility, enabling both their accumulation in the TME and increased interaction with other cell types. Ensuing IFNg signaling markedly transformed myeloid, stromal, and tumor niches to yield a broadly immune-supportive ecosystem. Blocking IFNg completely abolished the effect of anti-PD-L1/ TGFb combination therapy. Our data suggest that TGFb works in concert with PD-L1 to prevent TSCL expansion and replacement of exhausted CD8 T cells with fresh CD8 T effector cells, thereby maintaining the CD8 T cell compartment in a dysfunctional state.

Project description:Terminally exhausted CD8+ T-cells, which hold certain level of anti-tumour cytotoxicity but largely reduced proliferation capacity, contribute directly to tumour growth control. However, this subpopulation do not respond to immune checkpoint blockades or most existing immunotherapies and are difficult to be reactivated. Here, we show that a half-life extended interleukin (IL)-10/Fc fusion protein directly expands the terminally exhausted CD8+ TILs and sustains their effector functions through in vivo metabolic reprogramming, leading to eradication of established solid tumours and durable cures in a majority of treated mice when combined with adoptive T-cell transfer immunotherapy. Our results provide preclinical evidence that IL-10/Fc is a safe and highly effective therapy that acts on a specific subset of CD8+ TILs distinct from those responding to immune checkpoint blockades. Thus, IL-10/Fc could complement and synergize with existing cancer immunotherapies for enhanced efficacy and response rates. We find that IL-10/Fc reprograms T-cell metabolism by promoting oxidative phosphorylation through the mitochondrial pyruvate carrier, suggesting that metabolic reprogramming is sufficient to revitalize terminally exhausted CD8+ TILs.

Project description:We report the single cell RNA sequencing of mouse CD8+ T cells sorted from the spleen into three differentiation subsets: effector, precursor exhausted and terminally exhausted. CD8 T cells from mice treated with anti-CD137 or an isotype control are compared.

Project description:In chronic infections and cancer, exhausted CD8 T cells exhibit heterogeneous subpopulations. TCF1+PD-1+ progenitor exhausted CD8 T cells (Tpex) can self-renew and give rise to Tim-3+PD-1+ terminally differentiated CD8 T cells that retain their effector functions. Tpex cells are thus essential to maintaining a pool of antigen-specific CD8 T cells during persistent antigenic stimulation, and only they respond to PD-1-targeted therapy. Despite their potential as a crucial therapeutic target for immune interventions, the mechanisms controlling the maintenance of virus-specific Tpex cells remain to be determined. We observed approximately 10-fold fewer Tpex cells in the spleens of mice chronically infected with lymphocytic choriomeningitis virus (LCMV) one-year post-infection (p.i.) than at three months p.i. Similar to memory CD8 T cells, Tpex cells have been found to undergo self-renewal in the lymphoid organs, prominently the bone marrow, during chronic LCMV infection. Furthermore, ex vivo treatment with IL-15 preferentially induced the proliferation of Tpex cells rather than the terminally differentiated subsets. Interestingly, single-cell RNA sequencing analysis of LCMV-specific exhausted CD8 T cells after ex vivo IL-15 treatment compared with those before treatment revealed upregulation of ribosome-related genes and downregulation of genes associated with the TCR signaling pathway and apoptosis in both Tpex and Ttex subsets. The exogenous administration of IL-15 to chronically LCMV-infected mice also significantly increased self-renewal of Tpex cells in the spleen and bone marrow. In addition, we assessed the responsiveness of CD8 tumor-infiltrating lymphocytes (TILs) from renal cell carcinoma patients to IL-15. Similar to the data we obtained from chronic viral infection in mice, the expansion of the Tpex subset of PD-1+ CD8 TILs upon ex vivo IL-15 treatment was significantly higher than that of the terminally differentiated subset. These results show that IL-15 could promote self-renewal of Tpex cells, which has important therapeutic implications.

Project description:CD8 T cells normally differentiate from resting naïve T cells into function effector and then memory CD8 T cells following acute infections. During chronic viral infections, however, virus-specific CD8 T cells often become exhausted. We used microarrays to examine the gene expression differences between naive, effector, memory and exhausted virus-specific CD8 T cells following lymphocytic choriomeningitis virus infection. Experiment Overall Design: Three or four independent samples were sorted by flow cytometry for each cell type (naive, effector, memory and exhausted) virus-specific CD8 T cells. RNA was extracted and hybridized to Affymetrix microarrays.

Project description:T cell dysfunction is an important feature of many chronic viral infections. In particular, it was shown that PD-1 regulates T cell dysfunction during chronic LCMV infection in mice and PD-1 high cells exhibit an intense exhausted gene signature. These findings were extended to human chronic infections such as HIV, HCV and HBV. However, it is not known if PD-1 high cells of healthy humans have the traits of exhausted cells. In this study, we provide a comprehensive description of phenotype, function and gene expression profiles of PD-1 high versus PD-1 low CD8 T cells in the peripheral blood of healthy human adults as following: 1) The percentage of naive and memory CD8 T cells varied widely in the peripheral blood cells of healthy humans and PD-1 was expressed by the memory CD8 T cells. 2) PD-1 high CD8 T cells in healthy humans did not significantly correlated with the PD-1 high exhausted gene signature of HIV specific human CD8 T cells or chronic LCMV specific CD8 T cells from mice. 3) PD-1 expression did not directly affect the ability of CD8 T cells to secrete cytokines in healthy adults. 4) PD-1 was expressed by the effector memory (TEM) compared to ‘terminally differentiated effector’ (TEMRA) CD8 T cells. 5) Finally, an interesting inverse relationship between CD45RA and PD-1 expression was observed. We used highly purified PD-1 high and PD-1 low from six healthy adult individuals and naive CD8 T cell populations from four of those individuals for gene expression studies