Abstract Tumor-specific CD8 T cell peripheral tolerance occurs through a variety of mechanisms including clonal deletion, suppression, and the induction of anergy and is an important barrier that limits the generation of anti-tumor immunity. Several groups have demonstrated that prostate cancer can render tumor-specific CD8 T cells anergic, suggesting that strategies to reverse tumor-induced anergy may augment anti-tumor immunity. Recent work has demonstrated that signaling through the OX40 (CD134) co-stimulatory receptor, a member of the TNFR super-family, can augment both CD4 and CD8 T cell expansion, differentiation, and the generation of memory cells. However, whether OX40 ligation can reverse CD8 T cell anergy, and more specifically, tumor-induced CD8 T cell anergy, remains unclear. In the current study, we demonstrate that OX40 ligation can reverse CD8 T cell anergy to a prostate-specific self-antigen in non-tumor bearing hosts. Furthermore, OX40 engagement reversed tumor-specific CD8 T cell anergy and restored the proliferative capacity of tumor-reactive CD8 T cells in vivo, which attenuated the extent of tumor growth and enhanced the survival of tumor-bearing hosts. This is the first demonstration that OX40 ligation can rescue the function of anergic self or tumor-reactive CD8 T cells in vivo and suggests that OX40-mediated therapy may provide a novel means of boosting anti-tumor immunity by restoring the responsiveness of previously anergic tumor-specific CD8 T cells. Supported by an American Cancer Society - Sam E. and Kathleen Henry post-doctoral fellowship, a Prostate Cancer Foundation Young Investigator Award (W.L.R.), and grants from the NIH (A.D.W.).
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