New insights in CD28-independent allograft rejection

CD28 costimulatory blockade induces tolerance in most murine transplant models but fails to do so in stringent transplant models, such as skin transplantation. The precise immunological mechanisms of CD28-independent rejection remain to be fully defined. Using two novel mouse strains in which both CD28 and either CD4 or CD8 are knocked out (CD4(-/-)CD28(-/-) or CD8(-/-)CD28(-/-) mice), we examined mechanisms of CD28-independent CD4(+) or CD8(+) T-cell-mediated allograft rejection. CD4(-/-)CD28(-/-) and CD8(-/-)CD28(-/) deficient mice rejected fully allogeneic skin allografts at a tempo comparable with that in wild-type mice. Rejection proceeded despite significant reduction in alloreactive T-cell clone sizes suggesting the presence of a subset of T cells harnessing alternate CD28-independent costimulatory pathways. Blockade of CD40-CD154 and CD134-CD134L, but not ICOS-B7h pathways in combination significantly prolonged allograft survival in CD8(-/-)CD28(-/-) recipients and to a lesser extent in CD4(-/-)CD28(-/-) recipients. Prolongation in allograft survival was associated with reduced effector-memory T-cell generation, decreased allospecific Th1 cytokine generation and diminished alloreactive T-cell proliferation in vivo. In aggregate, the data identify these two pathways as critical mediators of CD28-independent rejection by CD4(+) and to a lesser extent CD8(+) T cells, and provide novel mechanistic insights into functions of novel T-cell co-stimulatory pathways in vivo.