Background and objective: Clinical intestinal transplantation (Int-Tx) is limited by high rates of rejection, infection, and graft versus host disease. To improve clinical outcomes and eliminate the comorbidities associated with chronic immunosuppression, the induction of donor-specific tolerance to intestinal grafts is desirable, especially in the pediatric population. This study determined the ability of intestinal grafts to facilitate tolerance induction in major histocompatibility complex (MHC)-inbred miniature swine.
Methods: Seven MGH-miniature swine received heterotopic intestinal grafts, two across MHC-matched, minor-antigen disparities, three across a class I MHC disparity with 12 days of cyclosporine A, and two across a class I MHC disparity without an immunosuppressant. Chimerism was assessed by FACS analysis and immunohistochemistry. Cell-mediated lympholysis assays were used to assess antidonor responses.
Results: Two animals receiving intestinal grafts without an immunosuppressant developed antidonor IgG in 14 days and rejected these completely. All other grafts were accepted with 12 days of cyclosporine A across both MHC-matched and MHC class I barriers. Cell-mediated lympholysis assays showed donor-specific unresponsiveness by day 30 across MHC class I barriers. Greater than 15% peripheral donor cell chimerism persisted for more than 60 days after MHC-matched Int-Tx. Although less than 1.5% peripheral donor cell chimerism was seen during the maintenance period after class I-mismatched Int-Tx, 5% to 10% myeloid chimerism was found in the peripheral blood 14 to 90 days after Int-Tx. FACS analysis demonstrated that 1% to 2% of lymphocytes in the graft mesenteric lymph nodes were CD4/CD25(HIGH+)/Foxp3(+) cells.
Conclusion: To our knowledge, this is the first demonstration of tolerance induction and persistence of chimerism in a large animal intestinal transplant model.