*Purpose: The full potential of islet transplantation will only be realized by the development of tolerogenic strategies that obviate the need for maintenance immunosuppressants. We report a clinically relevant strategy in which co-transplantation of islets and chimeric streptavidin-FasL(SA-FasL)-presenting biomaterials achieved long term islets acceptance and glycemic control in an allogeneic diabetic NHP model.

*Methods: Poly (ethylene glycol) [PEG]based microgels were engineered for controlled densities and presentation of an apoptotic SA-FasL. For the experimental group, allogeneic islets from single donor were co-transplanted with SA-FasL-presenting PEGs to the omentum of STZ-induced diabetic NHPs with Rapamycin for the first 3 months post-transplant as the only maintenance therapy. No IS therapy was administered after 3-months. Animals were followed for 6 months to demonstrate the reproducible long-term grafts survival and tolerance.

*Results: 4 experimental diabetic NHPs were co-transplanted with average 17K IEQ/kg and SA-FasL-presenting PEGs. Post-tx, each recipient promptly achieved excellent glycemic control with normal fasting BGs during the 180-day study endpoint. IVGTTs performed at 3 and 6-month post-tx revealed excellent islet function with BG disposal as robust as healthy animals. Insulin and C-peptide were greater than 1.5 mU/L and 50 pmol/L respectively for all animals. After removal of the islets-containing omentum, all animals returned to a hyperglycemic state immediately. Recipients demonstrated Treg expansion and reduction of effector memory T cells by flow and donor hypo-responsiveness by ELISPOT and MLR. In control group, 3 diabetic NHPs are to be co-transplanted with islets and non-FasL presenting PEGs to the omentum and Rapamycin as the only maintenance therapy (one completed). The completed control NPH achieved glycemic control post-tx but it was sustained for just 9 days, which is consistent with similar IS regimen in the literature. The control recipient demonstrated no evidence of Treg expansion and donor hypo-responsiveness.

*Conclusions: Co-transplantation of allogeneic islets with an off-the shelf immunomodulatory agent, SA-FasL presenting microgels resulted in long-term islet acceptance and glycemic control in a diabetic NHP model. Importantly, this strategy does not require long-term continuation of systemic immunosuppression. These are critical considerations in the clinical translation of this novel strategy for broad application of islet transplantation for the treatment of type 1 diabetes.

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