1. H7N9 Influenza A Virus Exhibits Importin-alpha 7-Mediated Replication in the Mammalian Respiratory Tract
- Author
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Debby van Riel, Stephanie Bertram, Annette Preuß, Patricia Resa-Infante, Gülsah Gabriel, Hans-Dieter Klenk, Folker Schwalm, Joseph S. M. Peiris, Chris Ka Pun Mok, Carola Dreier, Swantje Thiele, and Virology
- Subjects
alpha Karyopherins ,0301 basic medicine ,ARDS ,Respiratory System ,Virulence ,DNA-Directed DNA Polymerase ,Biology ,Influenza A Virus, H7N9 Subtype ,Virus Replication ,medicine.disease_cause ,Virus ,Pathology and Forensic Medicine ,Mice ,03 medical and health sciences ,0302 clinical medicine ,medicine ,Influenza A virus ,Animals ,Humans ,030212 general & internal medicine ,Lung ,Gene ,Mammals ,medicine.disease ,Virology ,HEK293 Cells ,030104 developmental biology ,medicine.anatomical_structure ,Viral replication ,Knockout mouse ,Cytokines ,Chemokines ,Inflammation Mediators ,Gene Deletion - Abstract
The acute respiratory distress syndrome (ARDS) is the leading cause of death in influenza A virus (IAV)-infected patients. Hereby, the cellular importin-α7 gene plays a major role. It promotes viral replication in the lung, thereby increasing the risk for the development of pneumonia complicated by ARDS. Herein, we analyzed whether the recently emerged H7N9 avian IAV has already adapted to human importin-α7 use, which is associated with high-level virus replication in the mammalian lung. Using a cell-based viral polymerase activity assay, we could detect a decreased H7N9 IAV polymerase activity when importin-α7 was silenced by siRNA. Moreover, virus replication was diminished in the murine cells lacking the importin-α7 gene. Consistently, importin-α7 knockout mice presented reduced pulmonary virus titers and lung lesions as well as enhanced survival rates compared to wild-type mice. In summary, our results show that H7N9 IAV have acquired distinct features of adaptation to human host factors that enable enhanced virulence in mammals. In particular, adaptation to human importin-α7 mediates elevated virus replication in the mammalian lung, which might have contributed to ARDS observed in H7N9-infected patients.
- Published
- 2017