Abstract
African green monkeys (AGMs), Chlorocebus pygerythrus, are a natural host for a lentivirus related to HIV, SIV. SIV-infected AGMs rarely progress to AIDS despite robust viral replication. Though multiple mechanisms are involved, a primary component is the animals' ability to downregulate CD4 expression on mature CD4+ Th cells, rendering these cells resistant to infection by SIV. These CD8αα+ T cells retain functional characteristics of CD4+ Th cells while simultaneously acquiring abilities of cytotoxic CD8αβ+ T cells. To determine mechanisms underlying functional differences between T cell subsets in AGMs, chromatin accessibility in purified populations was determined by assay for transposase-accessible chromatin sequencing. Differences in chromatin accessibility alone were sufficient to cluster cells by subtype, and accessibility at the CD4 locus reflected changes in CD4 expression. DNA methylation at the CD4 locus also correlated with inaccessible chromatin. By associating accessible regions with nearby genes, gene expression was found to correlate with accessibility changes. T cell and immune system activation pathways were identified when comparing regions that changed accessibility from CD4+ T cells to CD8αα+ T cells. Different transcription factor binding sites are revealed as chromatin accessibility changes, and these differences may elicit downstream changes in differentiation. This comprehensive description of the epigenetic landscape of AGM T cells identified genes and pathways that could have translational value in therapeutic approaches recapitulating the protective effects CD4 downregulation.