Abstract
Pericapsular fibrotic overgrowth (PFO) is associated with poor survival of encapsulated islets. A strategy to combat PFO is the use of mesenchymal stem cells (MSC). MSC have anti-inflammatory properties and their potential can be enhanced by stimulation with proinflammatory cytokines. This study investigated whether co-encapsulation or co-transplantation of MSC with encapsulated islets would reduce PFO and improve graft survival. Stimulating MSC with a cytokine cocktail of IFN-γ and TNF-α enhanced their immunosuppressive potential by increasing nitric oxide production and secreting higher levels of immunomodulatory cytokines. In vitro, co-encapsulation with MSC did not affect islet viability but significantly enhanced glucose-induced insulin secretion. In vivo, normoglycemia was achieved in 100% mice receiving islets co-encapsulated with stimulated MSC as opposed to 71.4% receiving unstimulated MSC and only 9.1% receiving encapsulated islets alone. Microcapsules retrieved from both unstimulated and stimulated MSC groups had significantly less PFO with improved islet viability and function compared to encapsulated islets alone. Levels of peritoneal immunomodulatory cytokines IL-4, IL-6, IL-10 and G-CSF were significantly higher in MSC co-encapsulated groups. Similar results were obtained when encapsulated islets and MSC were co-transplanted. In summary, co-encapsulation or co-transplantation of MSC with encapsulated islets reduced PFO and improved the functional outcome of allotransplants.
Highlights
Microencapsulation of pancreatic islets in alginate hydrogels is a strategy being explored as a potential cellular therapy for type 1 diabetes without the need for toxic immunosuppression
The multipotency of mesenchymal stem cells (MSC) was confirmed by differentiating them into cells of osteogenic and adipogenic lineage (Supplementary Fig. 1)
We explored the effect of stimulating MSC with proinflammatory cytokines to activate them
Summary
Microencapsulation of pancreatic islets in alginate hydrogels is a strategy being explored as a potential cellular therapy for type 1 diabetes without the need for toxic immunosuppression. Strategies aimed at reducing or preventing PFO should enhance encapsulated islet survival and improve transplantation outcomes. MSC co-encapsulation with macroencapsulated pig islets improved graft survival and function by enhancing oxygenation and neoangiogenesis in subcutaneous transplants any positive MSC effects on the occurrence of PFO was not mentioned[31]. There are no published studies that examine the effect of co-encapsulating stimulated MSC on PFO, islet survival and function. Stimulating MSC prior to transplantation results in the production of soluble factors which exert a strong immunosuppressive effect compared to unstimulated MSC32 In this manuscript, we examined the effect of co-encapsulating both unstimulated and stimulated MSC with islets to test the impact of stimulation on PFO and islet survival. We investigated the effect of co-transplantation of encapsulated islets and MSC (both unstimulated and stimulated) on PFO and graft survival
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