Peripheral vaccination-induced brain-resident memory CD8⁺ T cells durably protect mice against intracranial malignancy

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Abstract

Primary and metastatic brain tumors exhibit resistance to immunotherapies that demonstrate efficacy in peripheral cancer settings. While many immunotherapies aim to enhance CD8+ T cell infiltration and functionality in established tumors, identification of neoantigens support emerging immunopreventative tactics against brain cancer. Functionally potent tissue-resident memory CD8+ T cells (TRM) can be generated in the brain following peripheral infection or vaccination. However, the ability of brain TRM to prevent intracranial malignancy remains unknown. Here, mice were seeded with tumor-specific or bystander brain TRM via peripheral infection prior to depletion of circulating memory T cells (TCIRCM) and subsequent brain tumor challenge. Tumor-specific brain TRM durably protected mice against intracranial malignancy even in the absence TCIRCM. These brain TRM persisted in tumor-surviving mice and protected against a second antigen-matched challenge. Importantly, a translationally-relevant mRNA-lipid nanoparticle (LNP) vaccine phenocopied peripheral infection-induced outcomes, generating functional brain TRM that controlled tumor growth. Altogether, this work points to the utility of brain TRM in cancer immunoprevention, supporting the development of antitumor mRNA-LNP vaccines to bolster brain immunity.

Authors

Madison R. Mix, Cassie M. Sievers, Mariah Hassert, Shravan Kumar Kannan, Lecia L. Pewe, Sunny C. Huang, Rui He, Cori E. Fain, Mohammad Heidarian, Lisa S. Hancox, Sahaana A. Arumugam, Terry G. Beltz, Fang Jin, Aaron J. Johnson, Calvin S. Carter, Noah S. Butler, Aliasger K. Salem, Vladimir P. Badovinac, John T. Harty