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Innate Immune Response to Influenza Virus at Single-Cell Resolution in Human Epithelial Cells Revealed Paracrine Induction of Interferon Lambda 1.
- Source :
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Journal of virology [J Virol] 2019 Sep 30; Vol. 93 (20). Date of Electronic Publication: 2019 Sep 30 (Print Publication: 2019). - Publication Year :
- 2019
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Abstract
- Early interactions of influenza A virus (IAV) with respiratory epithelium might determine the outcome of infection. The study of global cellular innate immune responses often masks multiple aspects of the mechanisms by which populations of cells work as organized and heterogeneous systems to defeat virus infection, and how the virus counteracts these systems. In this study, we experimentally dissected the dynamics of IAV and human epithelial respiratory cell interaction during early infection at the single-cell level. We found that the number of viruses infecting a cell (multiplicity of infection [MOI]) influences the magnitude of virus antagonism of the host innate antiviral response. Infections performed at high MOIs resulted in increased viral gene expression per cell and stronger antagonist effect than infections at low MOIs. In addition, single-cell patterns of expression of interferons (IFN) and IFN-stimulated genes (ISGs) provided important insights into the contributions of the infected and bystander cells to the innate immune responses during infection. Specifically, the expression of multiple ISGs was lower in infected than in bystander cells. In contrast with other IFNs, IFN lambda 1 (IFNL1) showed a widespread pattern of expression, suggesting a different cell-to-cell propagation mechanism more reliant on paracrine signaling. Finally, we measured the dynamics of the antiviral response in primary human epithelial cells, which highlighted the importance of early innate immune responses at inhibiting virus spread. IMPORTANCE Influenza A virus (IAV) is a respiratory pathogen of high importance to public health. Annual epidemics of seasonal IAV infections in humans are a significant public health and economic burden. IAV also causes sporadic pandemics, which can have devastating effects. The main target cells for IAV replication are epithelial cells in the respiratory epithelium. The cellular innate immune responses induced in these cells upon infection are critical for defense against the virus, and therefore, it is important to understand the complex interactions between the virus and the host cells. In this study, we investigated the innate immune response to IAV in the respiratory epithelium at the single-cell level, providing a better understanding on how a population of epithelial cells functions as a complex system to orchestrate the response to virus infection and how the virus counteracts this system.<br /> (Copyright © 2019 Ramos et al.)
- Subjects :
- Gene Expression Profiling
Gene Expression Regulation, Viral
Host-Pathogen Interactions genetics
Humans
Influenza A virus genetics
Influenza, Human genetics
Influenza, Human virology
Interferons genetics
Interleukins genetics
Respiratory Mucosa immunology
Respiratory Mucosa metabolism
Respiratory Mucosa virology
Single-Cell Analysis
Viral Nonstructural Proteins genetics
Epithelial Cells metabolism
Epithelial Cells virology
Host-Pathogen Interactions immunology
Immunity, Innate genetics
Influenza A virus immunology
Influenza, Human immunology
Influenza, Human metabolism
Interferons biosynthesis
Interleukins biosynthesis
Subjects
Details
- Language :
- English
- ISSN :
- 1098-5514
- Volume :
- 93
- Issue :
- 20
- Database :
- MEDLINE
- Journal :
- Journal of virology
- Publication Type :
- Academic Journal
- Accession number :
- 31375585
- Full Text :
- https://doi.org/10.1128/JVI.00559-19