Role of 4‐1BB in Allograft Rejection Mediated by CD8 + T Cells

Blockade of traditional costimulatory molecules fails to inhibit rejection in many models where CD8 + T cells are sufficient to mediate rejection. This observation demonstrates that in many settings CD8 + T cells are not dependent upon CD28 or CD154 signals to mediate rejection. 4‐1BB (CD137) has been shown to be an important regulatory molecule for CD8 + T cells in a variety of nontransplant models. Here we show that blocking the 4‐1BB pathway significantly inhibited rejection of intestinal allografts by CD8 + but not CD4 + T cells. This effect was associated with significantly decreased expression of the genes encoding TNFα and secondary lymphoid chemokine (SLC) within the spleens of recipient mice. Disruption of the 4‐1BB pathway also impaired the priming of alloantigen‐specific CD8 + T cells and the accumulation of recipient dendritic cells within the spleen. These data directly demonstrate an important role for 4‐1BB in allograft rejection; particularly rejection mediated by CD8 + T cells. Our data suggest that in addition to providing a direct costimulatory signal to T cells, the 4‐1BB pathway may regulate other important steps in the immune response such as the migration of T cells and dendritic cells .