Antigen-specific reactivation of brain tissue resident memory CD8 T cells directly induces severe neuroinflammation and blood-brain-barrier disruption

Abstract

Abstract Intracranial infection with neurotropic Theiler’s Murine Encephalomyelitis Virus induces robust generation of brain TRMs against the immunodominant antigen, VP2 121–130, following viral clearance in C57BL/6 mice. While the presence of TRMs in the brain is documented, neurological consequences of TRM reactivation and their causal role in neuropathology remain understudied. We disabled peripheral CD8 T cells via anti CD8 depleting strategies and FTY720 treatment to determine the causal link between brain TRM reactivation and neuropathology. We depleted peripheral T cells and then administrated VP2 peptide IV to reactivate TRMs 60–200 days post infection as this elegant technique isolates responses of brain TRMs away from other branches of memory. We used state-of-the-art flow cytometry and MRI analysis to evaluate neurological consequences of TRM reactivation. TRM reactivation induced severe neuroinflammation in the brain as evident by infiltration of myeloid cells and blasting of T cells. MRI detected gadolinium leakage marking severe blood-brain-barrier (BBB) disruption when brain TRMs were reactivated. Depletion of peripheral CD8 T cells with low-dose anti CD8 antibodies or their sequestration via FTY720 did not alter neuroinflammation indicating brain TRM reactivation causally initiates neuropathology. Confirming this, tissue depletion of all TRMs in the brain using high-dose anti CD8 antibodies prevented both neuroinflammation and neuropathology. Hence, TRM reactivation causes severe neuroinflammation and BBB disruption from within the brain independently of peripheral T cells. Targeting brain TRM reactivation is a novel potential therapeutic for patients with many acute and chronic neurological diseases. Supported by grants from NIH (K99NS117799-01A1 (KA), R01NS103212 (AJJ), and RF1NS122174(AJJ)