Abstract
Preclinical studies in nonhuman primates (NHP) are particularly useful to evaluate the safety and efficacy of new therapeutic proteins developed for use in clinical transplantation. We hypothesized that a treatment that selectively destroys activated cytopathic donor reactive T cells while sparing resting and immunoregulatory T cells in a mouse model might also produce long-term drug-free engraftment and tolerance without the hazards of lymphopenia in the challenging nonhuman primate islet allograft model. Short-term treatment with a regimen consisting of rapamycin, and IL-2.Ig plus mutant antagonist-type IL-15.Ig cytolytic fusion proteins (triple therapy) posttransplantation results in prolonged, drug-free engraftment of cynomolgus islet allografts. Moreover slow progressive loss of islet function in some recipients was not associated with obvious pathologic evidence of rejection.