MHC class I expression by microglia is required for generating a complete antigen-specific CD8 T cell response in the CNS

Abstract

Abstract Microglia are central nervous system (CNS) resident immune cells for which the impact of MHC class I antigen presentation is still being defined. To directly address if microglia contribute to CD8 T cell-mediated immunity of the CNS, we generated a novel tamoxifen inducible CX3CR1-creER H-2Kb MHC class I conditional knockout mouse. In this transgenic mouse, the H-2Kb MHC class I molecule is deleted on all CX3CR1-expressing cells following tamoxifen treatment. By two weeks post tamoxifen treatment, peripheral CX3CR1-expressing cells repopulate, restoring normal expressing of H-2Kb. This leaves only microglia as the sole MHC class I-deficient cell type. We hypothesized that deletion of H-2Kb on microglia would reduce CD8 T cell responses in the CNS. We challenged these animals and cre-negative littermates with intracranial picornavirus infection with Theiler’s murine encephalomyelitis virus expressing ovalbumin (TMEV-OVA). We also challenged mice with experimental GL261 gliomas. We found that microglia-specific H-2Kb deletion reduces the CD8 T cell response in the CNS and attenuates the activation status of brain-infiltrating CD8 T cells in both models of neuroinflammation. We conclude that microglia are functional antigen presenting cells, and are required for a complete antigen-specific CD8 T cell response in the brain. These findings are the first to definitively address the role of microglia-expressed MHC class I in CNS immunological challenges.