向性
生物
病毒
病毒复制
病毒学
甲型流感病毒
组织向性
电池类型
干扰素
细胞
免疫学
遗传学
作者
Shanley N. Roach,Frances K. Shepherd,Clayton K. Mickelson,Jessica K. Fiege,Beth K Thielen,Lauren M. Pross,Autumn E. Sanders,Jason S. Mitchell,Matthew J. Robertson,Brian T. Fife,Ryan A. Langlois
标识
DOI:10.1073/pnas.2320303121
摘要
Influenza viruses pose a significant burden on global human health. Influenza has a broad cellular tropism in the airway, but how infection of different epithelial cell types impacts replication kinetics and burden in the airways is not fully understood. Using primary human airway cultures, which recapitulate the diverse epithelial cell landscape of the human airways, we investigated the impact of cell type composition on virus tropism and replication kinetics. Cultures were highly diverse across multiple donors and 30 independent differentiation conditions and supported a range of influenza replication. Although many cell types were susceptible to influenza, ciliated and secretory cells were predominantly infected. Despite the strong tropism preference for secretory and ciliated cells, which consistently make up 75% or more of infected cells, only ciliated cells were associated with increased virus production. Surprisingly, infected secretory cells were associated with overall reduced virus output. The disparate response and contribution to influenza virus production could be due to different pro- and antiviral interferon-stimulated gene signatures between ciliated and secretory populations, which were interrogated with single-cell RNA sequencing. These data highlight the heterogeneous outcomes of influenza virus infections in the complex cellular environment of the human airway and the disparate impacts of infected cell identity on multiround burst size, even among preferentially infected cell types.
科研通智能强力驱动
Strongly Powered by AbleSci AI