Molecular determinants of brain-resident CD8 + T cell formation and function
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Tissue-resident memory T (Trm) cells are strategically located to provide frontline protection upon antigen re-encounter while possessing tissue-specific transcriptional programs. Whether brain Trm cells similarly adapt to their tissue environment, and to what extent their molecular signature is altered in neuropathology, remains unclear. Here we profile brain Trm cells under homeostasis and in the contexts of aging, beta-amyloidosis, and systemic viral infection. From these studies, a tissue-specific CD8 + T cell landscape emerged, defined by the expression of the transcription factor TCF-1 and the inhibitory receptor PD-1. TCF-1 was critical for the formation and phenotypic maturation of brain CD8 + Trm cells, while PD-1 signaling was necessary for robust effector function and antigen-specific recall response. In addition, the cytokine transforming growth factor (TGF)-β was required for the differentiation of brain CD8 + Trm cells and restricted their transition into effector-like cells upon antigenic rechallenge. These findings highlight common as well as tissue-specific features of brain CD8 + Trm cells and provide insights into the molecular mechanisms governing their formation and function.
