Objectives: It has been demonstrated that artemisinin (ART) possesses multiple immune modulatory effects. However, its role as immunosuppressant in allogeneic transplantation is undetermined. Here, we investigated the effect of ART on co-stimulatory signaling in OX40+ T cells and evaluated ART as a potential immunosuppressant in transplantation.
Materials and methods: Allogeneic skin transplantation was performed in C57BL/6 to BALB/c mice. Recipient mice were administrated with vehicle, ART or cyclosporine A daily from day 0 to day 19 post transplantation. Proportions of splenic CD4+OX40+ and CD4+CD44hiCD62Lhi cells, and serum IgG was measured by using flow cytometry. An in vitro lymphocyte stimulation with Con A or LPS under various concentrations of ART was performed, expression of CD4+OX40+ and CD4+CD44hiCD62Lhi cells was evaluated, and interleukin(IL)-6 production was measured by ELISA.
Results: In in vivo allogeneic skin transplant model, ART significantly prolongs allogeneic skin survival. Furthermore, our in vitro studies demonstrate that the immune suppression of ART on T cells is associated with a reduction in OX40+ T cells and inhibition of IL-6 secretion.
Conclusion: Our data indicate that the OX40-OX40L pathway and IL-6 are possibly involved in ART-induced immunosuppression, and ART is a potential novel immunosuppressant.
Keywords: Artemisinin; IL-6; OX40; allogeneic transplantation; memory T cells.