Tolerance induction and reversal of diabetes in mice transplanted with human embryonic stem cell-derived pancreatic endoderm.

The CIRM Diabetes Disease Team is developing a replacement pancreatic cell therapy for type 1 diabetes that is manufactured from a single human embryonic stem cell line. As such, this cell therapy represents an allogeneic implant in recipients with diabetes, which if left unprotected would be rejected by the recipient's immune system. The Team is developing a macroencapsulation approach to protect the implanted cells from the recipient's immune system, but other approaches may be valuable to pursue as well. In this report, the Team demonstrates in animal models that the replacement pancreatic cells can be protected from the immune system by treating the recipient's immune system with specifically targeted molecules, known as co-stimulatory blockade. Because this approach has the precision to make the recipient immune system specifically tolerant to the implanted cells, and not generally immunosuppressed as commonly used pharmacological approaches do, it holds the promise of allowing for cellular replacement and transplant technologies without the well known undesirable side effects of immunosuppression.