Abstract SCI-14

Notch is a highly conserved signaling pathway with multiple functions in health and disease. In the hematopoietic system, Notch was first described for its essential role at early stages of T cell development in the thymus and for its involvement in T cell acute lymphoblastic leukemia. In addition, Notch is being increasingly recognized as a potent regulator of antigen-driven mature T cell responses with context-dependent effects. These effects are influenced by the regulated expression of Jagged and Delta-like Notch ligands in antigen-presenting cells under the control of Toll-like receptors and other innate signals. We are investigating the importance of the Notch pathway in T cell alloimmunity in the setting of allogeneic bone marrow or peripheral blood stem cell transplantation (allo-BMT). After allo-BMT, alloimmune T cell responses mediate beneficial graft-versus-tumor (GVT) activity as well as detrimental graft-versus-host disease (GVHD). Using the pan-Notch inhibitor DNMAML and other genetic models of Notch inhibition, we have discovered an essential function for Notch signaling in donor-derived alloreactive T cells. In multiple mouse models of allo-BMT, infusion of Notch-deficient T cells as compared to wild-type T cells led to dramatically reduced GVHD severity and lethality. This effect was apparent for both CD4+ and CD8+ T cells and did not involve global immunosuppression, since Notch-deficient T cells proliferated normally and expanded in host lymphohematopoietic organs. However, Notch-deficient donor T cells failed to accumulate in the gut, a key GVHD target organ, and produced markedly decreased amounts of the pro-inflammatory cytokines IFN-γ, TNF-α, and IL-2. In parallel, Notch inhibition was associated with increased accumulation of FoxP3+CD4+ T cells. Decreased cytokine production could not be explained by a classical T helper differentiation defect. In contrast to their defective induction of GVHD, Notch-deficient T cells remained capable of mediating cytotoxic and anti-tumor responses both in vitro and in vivo, leading to preserved GVT activity even against large numbers of tumor cells. We are currently investigating the molecular and cellular mechanisms of Notch action in alloreactive T cells. We are also exploring the role of individual Notch receptors and ligands at the alloimmune synapse in vivo. Altogether, our findings identify Notch inhibition in donor T cells as a novel strategy to induce beneficial immunomodulation rather than global immunosuppression after allo-BMT.

Disclosures:

No relevant conflicts of interest to declare.

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