Abstract

ABSTRACTInfluenza A viruses generate annual epidemics and occasional pandemics of respiratory disease with important consequences for human health and the economy. Therefore, a large effort has been devoted to the development of new anti-influenza virus drugs directed to viral targets, as well as to the identification of cellular targets amenable to anti-influenza virus therapy. Here we have addressed the identification of such potential cellular targets by screening collections of drugs approved for human use. We reasoned that screening with a green fluorescent protein-based recombinant replicon system would identify cellular targets involved in virus transcription/replication and/or gene expression and hence address an early stage of virus infection. By using such a strategy, we identified Montelukast (MK) as an inhibitor of virus multiplication. MK inhibited virus gene expression but did not alter viral RNA synthesis in vitro or viral RNA accumulation in vivo. The low selectivity index of MK prevented its use as an antiviral, but it was sufficient to identify a new cellular pathway suitable for anti-influenza virus intervention. By deep sequencing of RNA isolated from mock- and virus-infected human cells, treated with MK or left untreated, we showed that it stimulates the PERK-mediated unfolded protein stress response. The phosphorylation of PERK was partly inhibited in virus-infected cells but stimulated in MK-treated cells. Accordingly, pharmacological inhibition of PERK phosphorylation led to increased viral gene expression, while inhibition of PERK phosphatase reduced viral protein synthesis. These results suggest the PERK-mediated unfolded protein response as a potential cellular target to modulate influenza virus infection.

Highlights

  • Influenza A viruses are the causative agents of annual epidemics of respiratory disease and occasionally generate pandemics with variable consequences for human health and the global economy [1]

  • Efforts in this direction came from the observation that some signaling pathways are altered during influenza virus infection [25,26,27,28,29], and modulation of influenza virus multiplication was attempted with drugs designed to alter cell signaling

  • By screening collections of drugs approved for human use in a green fluorescent protein (GFP)-based virus transcription-replication system, we identified Montelukast (MK) as an inhibitor of virus gene expression and validated these results in virus-infected cells

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Summary

Introduction

Influenza A viruses are the causative agents of annual epidemics of respiratory disease and occasionally generate pandemics with variable consequences for human health and the global economy [1]. This information has been complemented with general analyses of the alterations in cellular gene expression induced by influenza virus infection, at either the RNA [45,46,47] or the protein [48, 49] level.

Results
Conclusion

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