Porte, R.; Belloy, M.; Audibert, A.; Bassot, E.; Aida, A.; Alis, M.; Miranda-Capet, R.; Jourdes, A.; van Gisbergen, K. P.; Masson, F.; Blanchard, N.

Chronic T. gondii infection induces brain-resident CD8+ T cells (bTr) but their protective functions and differentiation cues remain undefined. Here, we used a mouse model of latent infection by T. gondii leading to effective CD8+ T cell-mediated parasite control. Thanks to antibody depletion approaches, we found that peripheral circulating CD8+ T cells are dispensable for brain parasite control during chronic stage, indicating that CD8+ bTr are sufficient to prevent brain parasite reactivation. We observed that the retention markers CD69, CD49a and CD103 are sequentially acquired by brain parasite-specific CD8+ T cells throughout infection, and that a majority of CD69/CD49a/CD103 triple-positive (TP) CD8+ T cells also express Hobit, a transcription factor associated with tissue residency. This TP subset develops in a CD4+ T cell-dependent manner, and is associated with effective parasite control during chronic stage. Conditional invalidation of TAP-mediated MHC class I presentation showed that presentation of parasite antigens by glutamatergic neurons and microglia regulate the differentiation of CD8+ bTr into TP cells. Single-cell transcriptomic analyses upon T. gondii latency vs. encephalitis revealed that resistance to encephalitis is associated with the expansion of stem-like subsets of CD8+ bTr. In summary, parasite-specific brain-resident CD8+ T cells are functionally heterogeneous and autonomously ensure parasite control during T. gondii latent infection. Their differentiation is shaped by neuronal and microglial MHC I presentation. A more detailed understanding of local T cell-mediated immune surveillance of this common parasite is needed for harnessing brain-resident CD8+ T cells in order to enhance control of chronic brain infections.