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- Characterization of Effector-Memory CD8+ T cells and their Association with Human Cognitive FunctionPublication . Esgalhado, André João Gabriel ; Arosa, Fernando Aguilar; Uhrberg, MarkusHuman effector-memory CD8+ T cells consist of highly differentiated cells that differ in the expression of the tyrosine phosphatase isoform CD45RA, being designated as CD8+ TEM and CD8+ TEMRA cells. These highly heterogeneous and polyfunctional cells possess cytotoxic, regulatory, and suppressive features, and are capable of migrating to non-lymphoid tissues and organs, including the brain under certain conditions. Expansions of CD8+ TEM and CD8+ TEMRA cells have been described in chronic inflammatory diseases, tumors and viral infections, as well as in healthy elderly individuals, including centenarians. Over the past few decades, the role of CD8+ T cells, particularly CD8+ TEMRA cells, has been the subject of several studies in the context of aging, cognition, and neurodegeneration, where they have been generally regarded as detrimental to the central nervous system (CNS), though recent investigations have challenged this view. These highly differentiated CD8+ T cells are known to arise through TCR-dependent and TCR-independent mechanisms, such as cytokine-driven proliferation via interleukin (IL)-15. Intriguingly, chronic antigenic stimulation has been shown to drive the generation of CD8+ T cells expressing low levels of the CD8β chain, though antigen-independent mechanisms remain poorly understood. Herein, we have performed a comprehensive characterization of peripheral blood mononuclear cells (PBMC) as well as of human leukocyte antigen (HLA) molecules in a cohort of elderly volunteers differing in their cognitive status. A detailed analysis of the level of expression of CD45RA in the CD8+ TEMRA compartment revealed the presence of two distinct populations: CD8+ TEMRAlow and CD8+ TEMRAhigh cells. Notably, CD8+ TEMRAhigh cells formed a well-defined and sharply delineated population that was significantly expanded in cognitively impaired volunteers, whereas cognitively unimpaired volunteers were enriched in CD8+ TEMRAlow cells. Further analysis of CD8α and CD8β expression also identified the existence of two distinct CD8+ T cells subsets based on the expression of CD8β: CD8αβlow and CD8αβhigh T cells, with the former being more prevalent among cognitively unimpaired individuals. Moreover, stimulation with PMA and Ionomycin revealed significantly increased IFN-γ production by CD4+ T cells from cognitively impaired elderly. Noteworthy, all but one of the volunteers studied were cytomegalovirus (CMV) seropositive. Finally, a higher prevalence of the HLA-B8 serotype, which belongs to the ancestral haplotype HLA-A1, Cw7, B8, DR3, DQ2, was found among the cognitively impaired elderly. Additionally, we assessed the impact of IL-15 on the cell surface expression of CD8β using CFSE-labeled purified human naïve CD8+ T cells cultured for 12 days. IL-15 induced a robust proliferation and differentiation, resulting in a cell cycle-dependent down-modulation of CD8β from the cell surface, while CD8α expression remained stable or increased slightly. This led to the generation of CD8αβlow and CD8αβ– (i.e., CD8αα) T cells. In contrast, IL-2 and IL-7 alone were unable to replicate this effect. Determination of mRNA levels for CD8α and CD8β isoforms by qPCR revealed that IL-15 promoted a significant decrease in mRNA levels of the CD8β M-4 isoform, while increasing the levels of the M-1 and M-2 isoforms alongside with CD8α. Remarkably, analysis of the level of the tyrosine kinase Lck showed a significant increase in CD8+ T cell blasts after culture of CD8+ T cells with IL-15, when compared to CD8+ T cells at the beginning of the culture. Our findings show an association with certain CD8+ T cell subsets that is compatible with a protective role in cognition and neurodegenerative diseases by identifying novel markers that define discrete subsets of highly differentiated CD8+ T cells expanded in cognitively unimpaired elderly individuals and identify IL-15 as a factor involved in the generation of these subsets. In-depth phenotypic, functional, and transcriptomic characterization of ex vivo and in vitro obtained CD8+ T cell subset is warranted to further elucidate their unique functional properties.