PD-1 in balancing expansion of effector T cells and attrition of memory T cell during tumor-reactive T cell responses

Abstract

Abstract Though anti-PD-1/PD-L1 immune checkpoint blockade therapy has demonstrated robust anti-tumor immunity in human patients with advanced cancers such as melanoma, only a fraction of patients achieved such durable anti-tumor responses. Among all the non-responders, some patients responded initially but developed resistance to the therapy in the later treatments. This reflects an urgent need to understand the role of PD-1 signals in CD8+ T cells at priming and at effector stages during tumor development for the benefit of immunotherapy. The controversy of rapid tumor progression in PD-1 conditional knockout in regulatory T cells and tumor regression in PD-1 targeted deletion in regulatory T cells indicated germline PD-1 knockout mice might not be sophisticated enough to study the role of PD-1 in CD8+ T cells during tumor development. Thus, we produced a CD8 T cell-specific PD-1 knockout mouse model (CD8 E8ICre-PD-1 fl/fl, also called CD8-PD-1 cKO mice) in which PD-1 is deleted in CD8+ T cells in the peripheral tissues. When CD8-PD-1 cKO mice were challenged with B16-OVA mouse melanoma cells, we found a delayed tumor growth and prolonged survival of CD8-PD-1 cKO compared to control mice. However, after 20 days of tumor challenge, the delayed tumor growth rebound in CD8-PD-1 cKO mice. In an OVA antigen immunization model, we found increased effector cells and tissue resident cells in the spleen of CD8-PD-1 cKO mice compared with control mice on day 7 after immunization. Taken together, our results suggest that PD-1 may restrain the expansion of effector T cells that contribute to the early phase of tumor control, but the augmented effector T cell response may cause an attrition of memory T cell pool that will be needed for long term protection. R01CA256927