Time Course scRNAseq Analysis Reveals Mechanisms of Impaired Lung Recovery Post Influenza Infection during Aging: Zooming into Macrophages

Abstract

Abstract Aging is considered to be a major risk factor for host morbidity and mortality upon acute respiratory virus infections. To better elucidate the immune determinants of viral pathogenesis during aging, we chronological characterized lung cellular and molecular profiles following influenza virus (PR8) infection in young or aged mice till 60 days post infection. Time-course scRNAseq coupled with high dimensional flow cytometry enabled the description of changes in both immune and stromal compartment between young and aged hosts. We further zoomed into the myeloid compartment and focused on the dynamic responses of lung macrophages given their complex roles in viral pathogenesis, tissue repair and lung fibrosis. Enlarged Monocyte-derived Macrophage (MoM) population as well as decreased resident-Alveolar Macrophage (AM) population were observed in the aged mice when compared to those of the young mice. Despite the self-sustain nature of AMs during homeostasis, it has been reported that Ly6C himonocytes can gain AM identity following severe lung damage like influenza virus infection. We found that the gain of AM identity from monocytes was abrogated in the aged hosts, which likely contributed to the age-associated impairment in lung recovery after influenzas virus infection. Additionally, trajectory analysis with scRNAseq allowed us to identify IFNα/γ signaling to be potential pathways contributing to such defect. This notion is also supported by elevated IFNγ level in BAL from the aged host during lung recovery. Our results thus have improved our understanding on the cellular and molecular mechanisms by which aged hosts exhibit severe diseases and delayed recovery after respiratory viral infection.