Establishment of influenza-specific lung tissue-resident helper memory CD4+ T cells relies on expression the eATP sensor P2RX7

Abstract

Abstract Influenza remains an infection of high medical relevance. Development of universal anti-influenza vaccines will require a better knowledge of lung immune responses. That includes influenza-specific CD4+ T cells, which establish long-term lung residency and induce a diversified local protective response to subsequent infection. Lung-resident memory CD4+ T cells are heterogeneous, including Th1-like cells, and a subset that shares phenotypic and functional features with follicular helper (Tfh) cells – called tissue-resident helper (Trh). Notably, both Tfh and lung Trh cells express the extracellular ATP (eATP) sensor P2RX7 at high levels. Given its known deleterious role in Tfh cells, we investigated if P2RX7 could also limit the Trh pool in influenza-infected lungs. Contrary to our hypothesis, T cell-specific P2RX7 ablation led to a significant decrease in the Trh cell subset. Consequently, lungs of T cell-P2RX7 knockout mice harbor reduced B cell and CD8+ T cell responses. Initial Trh cell establishment is not affected by P2RX7 knockout; rather, P2RX7-deficient Trh cells gradually decay over time. This is associated with increased apoptosis and decreased in situ proliferation of P2RX7-knockout Trh cells. Our bulk RNA-seq analysis of lung CD4+ T cells revealed many cell cycle-associated genes poorly expressed in P2RX7-knockout cells. Some (but not all) Trh-fate genes are also decreased in P2RX7 deficiency. We are currently performing single-cell RNA-seq to define whether P2RX7 promotes the Trh fate in a particular subset of lung precursor cells. Our data shows that, in response to influenza, P2RX7 promotes lung-resident Trh cells, suggesting this eATP sensor has opposite roles in Tfh-like CD4+ T cells in a tissue-specific manner. Supported by grant from NIH (R00 AI139381)