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Novel Combined Costimulation and CD122 Blockade in Islet Transplantation

$48,576F30FY2016DKNIH

Emory University, Atlanta GA

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Linked publications & trials

Abstract

? DESCRIPTION (provided by applicant): Islet transplantation is a potentially curative therapy for Type 1 Diabetes, an autoimmune disease that affects millions. The success of islet transplantation is hampered by T cell mediated rejection and toxicities from the untoward effects of calcineurin inhibitor (CNI) based immunosuppression. CNIs are small molecule phosphatase inhibitors used in transplantation for their potent T cell suppression but they are accompanied by many side effects. Type 1 diabetes and transplant rejection result from a T cell mediated destruction of tissue. T cells require three signals for activation: T cell receptor (TCR) engagement, costimulation provided by CD28-B7 binding, and signaling through the shared IL-2/IL-15 receptor. In order to provide T cell specific immunosuppression, but reduce morbidity related to CNI therapy, the T cell specific costimulation blocker Belatacept was developed. Patients treated with Belatacept after kidney transplant enjoy improved graft survival, kidney function, cardiovascular health and islet function compared to those treated with CNIs. However, patients treated with Belatacept experience higher rates and more severe grades of acute T cell mediated rejection. Recently, our lab has demonstrated a dramatic improvement in allograft survival when we combine costimulatory blockade and anti-CD122 treatments. This not only prolongs graft survival in mice but is also effective in a pre-clinical non-human primate kidney transplant model. In part this treatment was effective because it reduced the number of antigen-specific T cells available for rejection. Importantly IL15 signaling has been shown to be an essential pathway in the development of autoreactive, islet specific T cells in Type 1 Diabetes. Thus, we propose using combined CD122 blockade and costimulation blockade as a strategy to prevent both allo- and autoreactive T cell mediated destruction of transplanted islets. We will first evaluate the efficacy of combined therapy in fully allogeneic naïve and autoimmune models of islet transplantation in comparison with costimulation blockade alone. Then we will use the murine OVA TCR transgenic system that has been used extensively in our lab to characterize cellular mechanisms of long-term tolerance induction with this novel combination of anti-CD122 and costimulation blockade. The proposed work will serve as a framework for the applicant's training plan to become a physician-scientist by integrating basic science research with a clinical focus in transplantation. These studies will address end stage kidney disease and endocrine disorders using immunomodulatory therapies.

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