Depletion of alloreactive donor T cells using immunomagnetic cell selection

Donor T cells support both engraftment and immune reconstitution after allogeneic BMT. Moreover, they may exert potent anti-tumor effects (graft-versus-leukemia, GVL), which are used for adoptive immunotherapy. On the other hand, infusion of allogeneic T cells is frequently associated with the manifestation of immune reactions against healthy tissue, which may lead to life-threatening graft-versus-host disease (GVHD). To overcome this problem, we developed a new strategy for the exclusive depletion of alloreactive cells from donor leukocytes. We activated donor T cells by co-cultivation with a stroma layer of recipient cells and analyzed activation kinetics of CD3+, CD4+ and CD8+ T cells. Based on these data, activated cells were then depleted based on expression of activation-induced antigens using magnetic cell sorting (MACS). Alloreactivity of donor T cells was remarkably decreased after depletion of cells expressing either CD25 or CD69, as was shown in suitable in vitro assays. The lowest level of alloreactivity was found when both CD25- and CD69-positive cells were depleted. Importantly, depleted cell fractions preserved reactivity against third-party cells. In summary, we found that MACS-based ex vivo depletion of alloreactive cells may be a suitable way to prevent GVHD and therefore improve allogeneic BMT and adoptive immunotherapy.