The NS1 protein of a human influenza virus inhibits type I interferon production and the induction of antiviral responses in primary human dendritic and respiratory …

K Haye, S Burmakina, T Moran, A García-Sastre… - Journal of …, 2009 - Am Soc Microbiol
K Haye, S Burmakina, T Moran, A García-Sastre, A Fernandez-Sesma
Journal of virology, 2009Am Soc Microbiol
The NS1 protein of the influenza A virus is a potent virulence factor that inhibits type I
interferon (IFN) synthesis, allowing the virus to overcome host defenses and replicate
efficiently. However, limited studies have been conducted on NS1 function using human
virus strains and primary human cells. We used NS1 truncated mutant influenza viruses
derived from the human isolate influenza A/TX/91 (TX WT, where WT is wild type) to study
the functions of NS1 in infected primary cells. Infection of primary differentiated human …
Abstract
The NS1 protein of the influenza A virus is a potent virulence factor that inhibits type I interferon (IFN) synthesis, allowing the virus to overcome host defenses and replicate efficiently. However, limited studies have been conducted on NS1 function using human virus strains and primary human cells. We used NS1 truncated mutant influenza viruses derived from the human isolate influenza A/TX/91 (TX WT, where WT is wild type) to study the functions of NS1 in infected primary cells. Infection of primary differentiated human tracheo-bronchial epithelial cells with an NS1 truncated mutant demonstrated limited viral replication and enhanced type I IFN induction. Additionally, human dendritic cells (DCs) infected with human NS1 mutant viruses showed higher levels of activation and stimulated naïve T-cells better than TX WT virus-infected DCs. We also compared infections of DCs with TX WT and our previously characterized laboratory strain A/PR/8/34 (PR8) and its NS1 knockout strain, deltaNS1. TX WT-infected DCs displayed higher viral replication than PR8 but had decreased antiviral gene expression at late time points and reduced naïve T-cell stimulation compared to PR8 infections, suggesting an augmented inhibition of IFN production and human DC activation. Our findings show that human-derived influenza A viruses have a high capacity to inhibit the antiviral state in a human system, and here we have evaluated the possible mechanism of this inhibition. Lastly, C-terminal truncations in the NS1 protein of human influenza virus are sufficient to make the virus attenuated and more immunogenic, supporting its use as a live attenuated influenza vaccine in humans.
American Society for Microbiology