The role of non-deletional tolerance mechanisms in a murine model of mixed chimerism with costimulation blockade

Peripheral and central clonal deletion are important tolerance mechanisms in models using bone marrow transplantation [BMT] with costimulation blockade (CB). However, since tolerance can be found before peripheral deletion is complete and since elimination of recipient CD4(+) cells at the time of BMT prevents tolerance induction, we investigated the potential roles of regulation and anergy in such a murine model. We found that transient elimination of CD25(+) cells or neutralization of IL2 immediately after BMT and CB prevented the induction of skin graft tolerance. Cotransfer into SCID mice of CD4(+) cells taken from chimeras early after BMT, together with naive recipient-type CD4(+) cells significantly prolonged donor skin graft survival. In contrast, cotransfer of CD4(+) cells harvested from chimeras late after BMT did not prolong donor skin graft survival. Besides, depletion of CD25(+) cells in established chimeras several months post-BMT did not break tolerance. In vivo administration of recombinant IL2 inhibited chimerism and tolerance neither early nor late post-BMT, arguing against a decisive role for classical anergy. Thus, CD4 cell-mediated regulation contributes significantly to tolerance induction early after BMT, but appears to have no critical role in the maintenance of tolerance.