Project description:Here we investigated the regulatory mechanisms of TCR-independent bystander activation and NK-like cytotoxicity of human CCR7- memory CD8+ T cells. We found that TCR signals suppressed characteristic features of IL-15-induced CD8+ T-cell activation, including upregulated NKG2D expression and genes related to NK cytotoxicity and IFN response. Moreover, ionomycin suppressed IL-15-induced bystander activation and NK-like cytotoxicity, indicating that Ca2+-calcineurin signaling is responsible for TCR-mediated suppression of IL-15-induced bystander activation. NFATc1 suppressed IL-15-induced bystander activation via binding to AP-1 that is necessary for the IL-15-induced upregulation of NK cytotoxicity-related genes. Consistently, calcineurin inhibitors enhanced IL-15-induced NKG2D expression under concurrent TCR stimulation. Additionally, we defined genes upregulated by IL-15 and downregulated by concurrent TCR signals as an IL-15-induced bystander activation gene set, which was upregulated in bystander CD8+ T cells from patients with hepatitis A virus infection. Our findings open avenues for investigating bystander CD8+ T-cell activation and its regulation in pathological conditions.

Project description:Here we investigated the regulatory mechanisms of TCR-independent bystander activation and NK-like cytotoxicity of human CCR7- memory CD8+ T cells. We found that TCR signals suppressed characteristic features of IL-15-induced CD8+ T-cell activation, including upregulated NKG2D expression and genes related to NK cytotoxicity and IFN response. Moreover, ionomycin suppressed IL-15-induced bystander activation and NK-like cytotoxicity, indicating that Ca2+-calcineurin signaling is responsible for TCR-mediated suppression of IL-15-induced bystander activation. NFATc1 suppressed IL-15-induced bystander activation via binding to AP-1 that is necessary for the IL-15-induced upregulation of NK cytotoxicity-related genes. Consistently, calcineurin inhibitors enhanced IL-15-induced NKG2D expression under concurrent TCR stimulation. Additionally, we defined genes upregulated by IL-15 and downregulated by concurrent TCR signals as an IL-15-induced bystander activation gene set, which was upregulated in bystander CD8+ T cells from patients with hepatitis A virus infection. Our findings open avenues for investigating bystander CD8+ T-cell activation and its regulation in pathological conditions.

Project description:There is growing appreciation for the emergence of CARneg bystander T cells after CAR-T cell infusion. However, their phenotypic and transcriptomic hallmarks and mechanisms of activation remain uncertain. We performed single-cell RNA-Seq (scRNA-Seq) on non-human primate (NHP) and patient-derived T cells to interrogate CARneg T cells following B cell targeted CAR-T cell therapy. In a NHP model, we observed a distinct population of activated CD8+ CARneg T cells emerging during CAR-T cell expansion. These bystander CD8+ CARneg T cells exhibited a unique transcriptional signature with upregulation of NK-cell markers (KIR3DL2, CD160, KLRD1), chemokines and chemokine receptors (CCL5, XCL1, CCR9), and downregulation of naive T cell-associated genes (SELL, CD28). A transcriptionally similar population was identified in patients following Tisangelecleucel infusion. Mechanistic studies revealed that IL-2 and IL-15 exposure induced bystander-like CD8+ T cells. These T cells efficiently killed leukemic cells through a TCR-independent mechanism. Together, these data identify bystander CD8+ T cells as a novel mechanism by which CAR-T cell infusion can induce further anti-leukemic activity, measurable in both NHP and in patients.

Project description:There is growing appreciation for the emergence of CARneg bystander T cells after CAR-T cell infusion. However, their phenotypic and transcriptomic hallmarks and mechanisms of activation remain uncertain. We performed single-cell RNA-Seq (scRNA-Seq) on non-human primate (NHP) and patient-derived T cells to interrogate CARneg T cells following B cell targeted CAR-T cell therapy. In a NHP model, we observed a distinct population of activated CD8+ CARneg T cells emerging during CAR-T cell expansion. These bystander CD8+ CARneg T cells exhibited a unique transcriptional signature with upregulation of NK-cell markers (KIR3DL2, CD160, KLRD1), chemokines and chemokine receptors (CCL5, XCL1, CCR9), and downregulation of naive T cell-associated genes (SELL, CD28). A transcriptionally similar population was identified in patients following Tisangelecleucel infusion. Mechanistic studies revealed that IL-2 and IL-15 exposure induced bystander-like CD8+ T cells. These T cells efficiently killed leukemic cells through a TCR-independent mechanism. Together, these data identify bystander CD8+ T cells as a novel mechanism by which CAR-T cell infusion can induce further anti-leukemic activity, measurable in both NHP and in patients.

Project description:B-cell lymphoma/leukemia (BCL) 11B represents a major regulator of vital processes in post-thymic lymphocytes as well as of lymphocyte differentiation by blocking NK cell and promoting T cell development and is thus considered a \\"guardian of T cell fate\\". Interestingly, on the one hand, NK cell maturation correlates with increased expression of BCL11B, on the other hand, native or induced T cell populations characterized by multiple NK cell features showed reduced BCL11B expression. Both NK cells or T cells display unique and desired features for cellular therapies. NK cells are able to efficiently lyse cancerous or virally infected cells but can only be poorly expanded in vitro. In contrast, T cell cytotoxic activity is limited by T cell receptor (TCR) but in vitro expansion is easily achievable. We show that from buffy coats of healthy donors isolated and CRISPR/Cas9-mediated BCL11B knock-out CD8+ T cells stimulated with IL-15 acquired remarkable innate characteristics and combine spontaneous and antibody-dependent NK cell cytotoxicity with T cell capability for rapid in vitro expansion. The observed features of the induced innate CD8+ (iiT8) cells make them an interesting and promising tool for cellular therapy.

Project description:TCR signaling via NFATc1 constrains IL-15-induced NK-like activation of human memory CD8+ T cells

Project description:CD8+T cells are immune cells that recognize foreign antigens on infected and tumor cells, leading to cytokine-dependent expansion and activation of cytotoxicity towards the targets. To identify Runx3 regulated genes, CD8+ T cells were isolated from spleen of WT and Runx3-/- mice . Six samples (3 WT and 3 Runx3-/-) of CD8+ T cells were separately obtained from individual mice, TCR activated and cultured for 4 days with IL-2.

Project description:Virtual memory T (TVM) cells are a T-cell subtype that exhibit a memory phenotype without prior exposure to a foreign antigen. Although several recent studies suggest that TVM cells exert anti-viral and anti-bacterial function, pathological roles of TVM cells causing inflammatory diseases have not been studied. Here, we identified a novel CD8+ T-cell subset (CD44s-hiCD49dlo CD8+ T cells), which is originated from TVM cells and can cause a chronic inflammatory disease, alopecia areata (AA). In the skin of alopecic mice, we detected a distinct TVM-cell subpopulation characterized by superior expression of CD44 and features of tissue residency, which was transcriptionally, phenotypically, and functionally distinct from conventional CD8+ TVM cells. Mechanistically, this cell population could be induced from conventional TVM cells by IL-12, IL-15, and IL-18 stimulation. Moreover, the pathological activity of CD44s-hiCD49dlo CD8+ T cells was mediated by NKG2D-depedent innate-like cytotoxicity against target cells, which was further augmented by IL-15 stimulation and triggered the onset of disease. Collectively, our results suggest a new immunological mechanism through which TVM cells can cause chronic inflammatory disease by innate-like cytotoxicity.

Project description:Virtual memory T (TVM) cells are a T-cell subtype that exhibit a memory phenotype without prior exposure to a foreign antigen. Although several recent studies suggest that TVM cells exert anti-viral and anti-bacterial function, pathological roles of TVM cells causing inflammatory diseases have not been studied. Here, we identified a novel CD8+ T-cell subset (CD44s-hiCD49dlo CD8+ T cells), which is originated from TVM cells and can cause a chronic inflammatory disease, alopecia areata (AA). In the skin of alopecic mice, we detected a distinct TVM-cell subpopulation characterized by superior expression of CD44 and features of tissue residency, which was transcriptionally, phenotypically, and functionally distinct from conventional CD8+ TVM cells. Mechanistically, this cell population could be induced from conventional TVM cells by IL-12, IL-15, and IL-18 stimulation. Moreover, the pathological activity of CD44s-hiCD49dlo CD8+ T cells was mediated by NKG2D-depedent innate-like cytotoxicity against target cells, which was further augmented by IL-15 stimulation and triggered the onset of disease. Collectively, our results suggest a new immunological mechanism through which TVM cells can cause chronic inflammatory disease by innate-like cytotoxicity.

Project description:TCR signaling via NFATc1 constrains IL-15-induced NK-like activation of human memory CD8+ T cells [RNAseq_IONO_12H]