Impaired tumor rejection by memory CD8 T cells in mice with NKG2D dysfunction

Cytotoxic T cells are important effectors for robust antitumor immune responses. However, tumor‐infiltrating CD8 T cells are often functionally impaired. Insufficient antitumor activity of CD8 T cells can be due to a lack of costimulatory signals. NKG2D is such a costimulatory receptor on CD8 T cells that facilitates immunorecognition of stressed and malignant cells, promotes tumor rejection by NK and CD8 T cells and contributes to immunosurveillance of spontaneous malignancies. Previous reports suggested an involvement of NKG2D in establishing CD8 T cell‐mediated antitumor memory. However, the significance of NKG2D for the generation and effector phase of memory CD8 T cell responses is largely unknown. To address these issues, we made use of a transgenic mouse model (H2‐K b ‐MICA mice) where the human NKG2D ligand MICA is ubiquitously and constitutively expressed resulting in a severe dysfunction of NKG2D. Both, ovalbumin (OVA)‐specific (H2‐K b /OVA 257–264 ) memory CD8 T cells arisen from the endogenous T cell pool and adoptively transferred OVA‐specific OT‐I memory cells were unable to control growth of an OVA‐expressing lymphoma in H2‐K b ‐MICA mice. While expansion of memory T cells in these mice on antigen challenge was not different from controls, CD8 memory T cells of H2‐K b ‐MICA mice did not effectively eliminate tumor cells in vivo . Altogether, our data suggest that NKG2D has no major role in the generation and expansion of memory CD8 T cells, but rather substantially enhances the cytolytic effector responses of reactivated memory T cells and thereby contributes to an efficacious tumor rejection.