In Vivo Function of Immune Inhibitory Molecule B7‐H4 in Alloimmune Responses

B7 ligands deliver both costimulatory and coinhibitory signals to the CD28 family of receptors on T lymphocytes, the balance between which determines the ultimate immune response. Although B7‐H4, a recently discovered member of the B7 family, is known to negatively regulate T cell immunity in autoimmunity and cancer, its role in solid organ allograft rejection and tolerance has not been established. Targeting the B7‐H4 molecule by a blocking antibody or use of B7‐H4 −/− mice as recipients of fully MHC‐mismatched cardiac allografts did not affect graft survival. However, B7‐H4 blockade resulted in accelerated allograft rejection in CD28‐deficient recipients. B7‐1/B7‐2‐double‐deficient recipients are truly independent of CD28/CTLA‐4:B7 signals and usually accept MHC‐mismatched heart allografts. Blockade of B7‐H4 in these mice also precipitated rejection, demonstrating regulatory function of this molecule independent of an intact CD28/CTLA‐4:B7 costimulatory pathway. Accelerated allograft rejection was always accompanied by increased frequencies of alloreactive IFN‐γ‐, IL‐4‐ and Granzyme B‐producing splenocytes. Finally, intact recipient, but not donor, B7‐H4 is essential for prolongation of allograft survival by blocking CD28/CTLA4:B7 pathway using CTLA4‐Ig. These data are the first to provide evidence of the regulatory effects of B7‐H4 in alloimmune responses in a murine model of solid organ transplantation.