Background. Costimulation through CD40-CD154 plays an important role in T-c
ell activation. Although systemic administration of anti-CD154 antibody pre
vents or delays rejection of organ allografts in animal models, the molecul
ar mechanisms responsible for this effect are not well defined.
Methods. We have previously demonstrated that priming of mice (H2(d)) with
CD40(-/-) but not with wildtype naive B cells (H2(b)) leads to alloantigen-
specific T-cell hyporesponsiveness in vitro. In the present study, we inves
tigated whether such priming modifies allograft rejection in a major histoc
ompatibility complex-mismatched murine cardiac transplantation model.
Results. Priming of hosts with donor-specific CD40-/- B cells delayed rejec
tion of subsequently transplanted wild-type cardiac allografts by 8.0 days
(P<0.001). The lack of CD40 on the cardiac graft delayed rejection in unpri
med or primed hosts by 3-5 days. Prolongation of graft survival correlated
with the failure of infused CD40(-/-) B cells to express B7.2 and ICAM-1 in
vivo.
Conclusions. Our data suggest that CD40-CD154 costimulation contributes to
T cell priming to alloantigens in vivo and to a second set rejection phase
in which donor antigens are presented to primed T cells.