Abstract
Abstract Most single cell analyses of human T cell heterogeneity use a single modality (i.e., RNA or ATAC or protein), with limited ability to deconvolute complex cellular and molecular alterations that can occur during human aging and disease. Here, we use a new trimodal single cell technology (TEA-seq) to elucidate the interplay between the surface proteome, transcriptome, and epigenome in more than 300,000 T cells from healthy children (11–13 yrs) and older adults (55–65 yrs). We uncover that age universally drives molecular reprogramming across all T cell subsets towards a more activated basal state. Naive CD4 T cells, considered relatively resistant to aging, exhibited far more pronounced transcriptional reprogramming than naive CD8 T cells, in which alterations are preferentially driven by compositional shifts in naive-like memory subsets. We further discover a novel naïve-like CD8aa T cell subset lost with age that displays an innate-like transcriptome, a KLF/SP-rich epigenome and high IL-21 receptor expression. These data reveal the complex molecular landscape of the human T cell compartment that may contribute to differential immune responses across age. Supported by grants from NIH (K01 AG068373 to CEG) and the Allen Institute
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