Cell-intrinsic expression of the hemichannel Pannexin-1 promotes effector and memory CD8+ T cells via distinct metabolic pathways

Abstract Tissue-derived extracellular ATP (eATP) is a “danger signal” sensed by immune cells via purinergic receptors (e.g. P2RX7). In addition, healthy cells can export eATP through transmembrane channels, such as the hemichannel Pannexin-1 (Panx1). CD8+ T cells express Panx1 constitutively throughout developmental and immune response stages. However, the biological role of Panx1 in CD8+ T cells is undefined. Here, we used genetic and pharmacological tools to address this question. T-cell specific Panx1 deletion did not affect CD8+ T cell thymic development. In contrast, CD8+ T cell responses to viral infection (LCMV) are impaired by Panx1 inhibition or deletion. This is true for effector expansion of CD8+ T cells and for the survival of memory CD8+ T cells. Using adoptive transfer of tamoxifen-conditional Panx1 knockout LCMV-specific (P14) cells into LCMV-infected mice, we showed that memory CD8+ T cell survival requires sustained Panx1 – except for small intestinal-resident cells. Mechanistically, Panx1 promotes memory CD8+ T cell survival via P2RX7, which also favors memory CD8+ T cells - as suggested by our data with Panx1/P2RX7-double knockout P14 cells. The role of Panx1 for effector CD8+ T cell expansion, however, is unlikely to be via P2RX7 since this receptor does not have a role in effector CD8+ T cells. Our transcriptional and metabolic data suggests that, while memory CD8+ T cells require Panx1 for optimal mitochondrial function and expression of pro-memory genes, effector CD8+ T cells lacking Panx1 had decreased activation of the glycolytic pathway. Collectively, these results suggest that, in response to acute virus, Panx1 induces CD8+ T cell effector expansion and memory survival through distinct metabolic pathways. Supported by grants from NIH (R00 AI139381, NIAID).