Concurrent microglial activation in CD8 T cell-mediated CNS vasculature permeability during Theiler's virus infection

Abstract Immune-mediated blood brain barrier (BBB) disruption is a prominent feature of various neurological conditions for which an emerging role of CD8 T cells is being realized. Our group has developed a unique model of CD8 T cell-mediated BBB disruption which employs Theiler’s murine encephalomyelitis virus (TMEV) infection. Upon intravenous administration of VP2121–130 viral peptide during the peak antiviral adaptive response, Db:VP2121–130 epitope specific CD8 T cells induce BBB disruption in a perforin dependent manner. In this model, we addressed the role of microglia in relation to antigen specific CD8+ T cells and permeable cerebral vessels. Using real time two-photon in vivo imaging, we demonstrate that microglia adopt distinct morphological features, including enlarged cell body and fewer ramified processes as early as 6 hours post administration of VP2 peptide. Notably, microglial population exhibit robust down-regulation of homeostatic markers including CX3CR1 during BBB disruption. This study demonstrates CD8 T cells can promote microglia activation in a perforin-dependent manner during BBB disruption. Importantly, microglial activation occurs concurrently with the onset of vascular permeability and could serve as a critical cell type in this process.