Abstract
Abstract Aging has been shown to be one of the major risk factors for host morbidity and mortality following infections with respiratory viruses including influenza virus and SARS-CoV-2. The unique immune properties of the aged hosts not only influence pathogen clearance and tissue damage responses, but also modulate the pathogenesis of the long-term sequalae post acute viral clearance. Currently, the dynamics and features of mucosal immune responses following acute respiratory viral infections in the aged hosts remain to be fully elucidated. Here, we characterized the lung cellular and molecular profiles following influenza virus infection in young (~3-month-old) or aged (~24-month-old) mice with a chronological manner from acute to chronic phase. Using DNA-oligo-conjugated CD45 antibody and i.v. labeling, we were able to distinguish the unique responses of circulating vs lung-resident immune cells to influenza virus infection during aging. These responses were further validated by spectral flow cytometry analysis of the lung innate and adaptive immune cells. Further data analysis and integration are warranted for this unique large data set detailing the single cell molecular profiles of mucosal responses to influenza virus infection comparing young and aged hosts.
Published Version
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