Thrombomodulin is used to manage disseminated intravascular coagulation. In our murine heart transplantation model, the administration of recombinant human soluble thrombomodulin (rTM) could induce the prolongation of cardiac allograft survival. However, there are limited data on the graft protective effects of each r domain (D1, D2, and D3). In this study, we investigated the effects of each domain of rTM on alloimmune responses in a murine model of cardiac allograft transplantation. Fully vascularized heterotopic hearts from C57BL/6 donors were transplanted into CBA recipients using microsurgical techniques. CBA mice that underwent transplantation of C57BL/6 cardiac allografts were assigned to 4 groups: no treatment and each domain-exposed group. The dosage of each domain was determined based on our previous experiments. Flow cytometry and histologic studies were performed to determine whether Foxp3+ regulatory T cells were generated. Untreated and D2-exposed CBA recipients acutely rejected C57BL/6 cardiac allografts within 9 days. Administration of D3 resulted in modest prolongation of allograft survival, and administration of D1 significantly prolonged allograft survival. Histologic studies showed that myocardial damage of allografts from D1- and D3-exposed CBA recipients was controlled compared with that of untreated recipients. In particular, the CD4+CD25+Foxp3+ cell population in the splenocytes of D1-exposed CBA recipients was increased. In conclusion, D1 in rTM could help prolong cardiac allograft survival through regulatory T cell induction and graft protective effects.
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