TY - JOUR T1 - Delineation of a molecularly distinct terminally differentiated memory CD8 T cell population JF - bioRxiv DO - 10.1101/2020.07.17.207266 SP - 2020.07.17.207266 AU - J. Justin Milner AU - Hongtuyet Nguyen AU - Kyla Omilusik AU - Miguel Reina-Campos AU - Matthew Tsai AU - Clara Toma AU - Arnaud D. Delpoux AU - Brigid S. Boland AU - Stephen M. Hedrick AU - John T. Chang AU - Ananda W. Goldrath Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/07/17/2020.07.17.207266.abstract N2 - Memory CD8 T cells provide durable protection against diverse intracellular pathogens and can be broadly segregated into distinct circulating and tissue-resident populations. Paradigmatic studies have demonstrated circulating memory cells can be further divided into effector memory (Tem) and central memory (Tcm) populations based on discrete functional characteristics. Following resolution of infection, we identified a persisting antigen-specific CD8 T cell population that was simultaneously terminally-fated with potent effector function but maintained memory T cell qualities and conferred robust protection against reinfection. Notably, this terminally-differentiated effector memory CD8 T cell population (terminal-Tem) was conflated within the conventional Tem population, prompting redefinition of the classical characteristics of Tem cells. Murine terminal-Tem were transcriptionally, functionally, and developmentally unique compared to Tem cells. Through mass cytometry and single-cell RNAseq analyses of human peripheral blood from healthy individuals, we also identified an analogous terminal-Tem population of CD8 T cells that was transcriptionally distinct from Tem and Tcm. A key finding of this study was that parsing of terminal-Tem from conventionally defined Tem challenges classical characteristics of Tem biology, including enhanced presence in lymphoid tissues, robust IL-2 production and recall potential, greater than expected homeostatic fitness, refined transcription factor dependencies, and a distinct molecular phenotype. Classification of terminal-Tem and clarification of Tem biology hold broad implications for understanding the molecular regulation of memory cell states and harnessing immunological memory to improve immunotherapies.Competing Interest StatementA.W.G. serves on the Scientific Advisory Boards of Pandion Therapeutics and Arsenal Bio. ER -