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Thiopurines Activate an Antiviral Unfolded Protein Response That Blocks Influenza A Virus Glycoprotein Accumulation

Patrick D. Slaine, Mariel Kleer, Brett A. Duguay, Eric S. Pringle, Eileigh Kadijk, Shan Ying, Aruna D. Balgi, Michel Roberge, Craig McCormick, Denys A. Khaperskyy

2021Journal of Virology22 citationsDOIOpen Access PDF

Abstract

Secreted and transmembrane proteins are synthesized in the endoplasmic reticulum (ER), where they are folded and modified prior to transport. Many viruses rely on the ER for the synthesis and processing of viral glycoproteins that will ultimately be incorporated into viral envelopes. Viral burden on the ER can trigger the unfolded protein response (UPR). Much remains to be learned about how viruses co-opt the UPR to ensure efficient synthesis of viral glycoproteins. Here, we show that two FDA-approved thiopurine drugs, 6-TG and 6-TGo, induce the UPR, which represents a previously unrecognized effect of these drugs on cell physiology. This thiopurine-mediated UPR activation blocks influenza virus replication by impeding viral glycoprotein accumulation. Our findings suggest that 6-TG and 6-TGo may have broad antiviral effect against enveloped viruses that require precise tuning of the UPR to support viral glycoprotein synthesis.

Topics & Concepts

BiologyUnfolded protein responseEndoplasmic reticulumRibonucleoproteinEIF-2 kinaseCell biologyInfluenza A virusViral replicationProtein biosynthesisGlycoproteinMolecular biologyKinaseProtein kinase AVirologyVirusBiochemistryRNAGeneCyclin-dependent kinase 2Endoplasmic Reticulum Stress and DiseaseInfluenza Virus Research StudiesVirus-based gene therapy research