Vascularized NICHE with local immunosuppression for cell replacement for Type 1 diabetes - Cell encapsulation technologies are poised to improve conventional islet transplantation to more effectively manage type I diabetes. Currently, lifelong whole-body immunosuppression is administered to avoid immune rejection of the transplant, despite the associated life-threatening adverse effects. Clinical studies reveal that transplants eventually fail due to lack of vascular support for nutrients and oxygen supply and host immune rejection. To address all these critical needs and supported by preliminary studies, we propose the NICHE, an innovative subcutaneous vascularized encapsulation system with local elution of immunosuppressants to protect transplanted cells from immune rejection. The NICHE presents dual transcutaneously refillable reservoirs, for drug and cells, respectively, separated by a nanoporous membrane. Local immunosuppressant delivery confines drugs to the graft site where immune attack occurs, minimizing exposure to the rest of the body, thus avoiding systemic immunosuppression and associated adverse effects. The NICHE cell reservoir is fully vascularized with functional vessels, recreating an ideal physiological environment conducive for maintaining long-term viability and function of transplanted cells. We hypothesize that the NICHE will provide a vascularized environment with local immunosuppressant delivery conducive for successful long-term islet allotransplantation to restore euglycemia in diabetic nonhuman primates (NHP). In aim 1, we will study the efficacy and safety of local immunosuppressant combinations as well as characterize their release from the NICHE via in vitro studies. This will be followed in aim to define the optimal local immunosuppression regimen for islet allotransplantation in NICHE and establish drug pharmacokinetics (PK) and biodistribution in healthy NHP. In aim 3, we will evaluate the curative efficacy of NICHE with allotransplanted islets to restore and maintain euglycemia in diabetic NHPs for one year. The proposed studies are based on our team’s extensive expertise in implantable drug and cell delivery systems, tissue engineering, research and clinical transplantation, transplant immunology, type 1 diabetes, as well as supportive preliminary data and previously published work. Importantly, the NICHE is designed prioritizing clinical considerations of efficacy, safety and user acceptability. Transcutaneous cell and drug refilling allow for ease of drug replenishment when needed, thus extending implant lifespan potentially for the lifetime of patients. Further, the thin and compact size of the NICHE, which is smaller than the encapsulation implants under clinical investigation, is favorable for user acceptability. Successful completion of the proposed work will provide a broadly applicable encapsulation system with localized immunosuppressant delivery for long- term protection of transplanted islets, as well as minimize adverse effects associated with immunosuppressive drugs. This could translate to a clinical breakthrough for deployment of cell therapies beyond islets, including stem cell-derived β cells, to treat diabetes as well as other diseases.
