Influenza A Virus Virulence Depends on Two Amino Acids in the N-Terminal Domain of Its NS1 Protein To Facilitate Inhibition of the RNA-Dependent Protein Kinase PKR

Influenza A Virus Virulence Depends on Two Amino Acids in the N-Terminal Domain of Its NS1 Protein To Facilitate Inhibition of the RNA-Dependent Protein Kinase PKR

The RNA-dependent protein kinase (PKR) has broad antiviral activity inducing translational shutdown of viral and cellular genes and is therefore targeted by various viral proteins to facilitate pathogen propagation. The pleiotropic NS1 protein of influenza A virus acts as silencer of PKR activation...

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Veröffentlicht in:Journal of virology 2017-05, Vol.91 (10)
Hauptverfasser: Schierhorn, Kristina L, Jolmes, Fabian, Bespalowa, Julia, Saenger, Sandra, Peteranderl, Christin, Dzieciolowski, Julia, Mielke, Maja, Budt, Matthias, Pleschka, Stephan, Herrmann, Andreas, Herold, Susanne, Wolff, Thorsten
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Amino Acids - chemistry
Animals
Cell Line
eIF-2 Kinase - antagonists & inhibitors
eIF-2 Kinase - genetics
eIF-2 Kinase - metabolism
Enzyme Activation
Host-Pathogen Interactions
Humans
Immunity, Innate
Influenza A virus
Influenza A virus - chemistry
Influenza A virus - genetics
Influenza A virus - pathogenicity
Lung - virology
Mice
Mutation
Orthomyxoviridae
Pathogenesis and Immunity
Viral Nonstructural Proteins - chemistry
Viral Nonstructural Proteins - genetics
Viral Nonstructural Proteins - metabolism
Virulence
Virus Replication
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container_issue 10
container_start_page
container_title Journal of virology
container_volume 91
creator Schierhorn, Kristina L
Jolmes, Fabian
Bespalowa, Julia
Saenger, Sandra
Peteranderl, Christin
Dzieciolowski, Julia
Mielke, Maja
Budt, Matthias
Pleschka, Stephan
Herrmann, Andreas
Herold, Susanne
Wolff, Thorsten
description The RNA-dependent protein kinase (PKR) has broad antiviral activity inducing translational shutdown of viral and cellular genes and is therefore targeted by various viral proteins to facilitate pathogen propagation. The pleiotropic NS1 protein of influenza A virus acts as silencer of PKR activation and ensures high-level viral replication and virulence. However, the exact manner of this inhibition remains controversial. To elucidate the structural requirements within the NS1 protein for PKR inhibition, we generated a set of mutant viruses, identifying highly conserved arginine residues 35 and 46 within the NS1 N terminus as being most critical not only for binding to and blocking activation of PKR but also for efficient virus propagation. Biochemical and Förster resonance energy transfer (FRET)-based interaction studies showed that mutation of R35 or R46 allowed formation of NS1 dimers but eliminated any detectable binding to PKR as well as to double-stranded RNA (dsRNA). Using and approaches to phenotypic restoration, we demonstrated the essential role of the NS1 N terminus for blocking PKR. The strong attenuation conferred by NS1 mutation R35A or R46A was substantially alleviated by stable knockdown of PKR in human cells. Intriguingly, both NS1 mutant viruses did not trigger any signs of disease in PKR mice, but replicated to high titers in lungs of PKR mice and caused lethal infections. These data not only establish the NS1 N terminus as highly critical for neutralization of PKR's antiviral activity but also identify this blockade as an indispensable contribution of NS1 to the viral life cycle. Influenza A virus inhibits activation of the RNA-dependent protein kinase (PKR) by means of its nonstructural NS1 protein, but the underlying mode of inhibition is debated. Using mutational analysis, we identified arginine residues 35 and 46 within the N-terminal NS1 domain as highly critical for binding to and functional silencing of PKR. In addition, our data show that this is a main activity of amino acids 35 and 46, as the strong attenuation of corresponding mutant viruses in human cells was rescued to a large extent by lowering of PKR expression levels. Significantly, this corresponded with restoration of viral virulence for NS1 R35A and R46A mutant viruses in PKR mice. Therefore, our data establish a model in which the NS1 N-terminal domain engages in a binding interaction to inhibit activation of PKR and ensure efficient viral propagation and virulence.
doi_str_mv 10.1128/JVI.00198-17
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The pleiotropic NS1 protein of influenza A virus acts as silencer of PKR activation and ensures high-level viral replication and virulence. However, the exact manner of this inhibition remains controversial. To elucidate the structural requirements within the NS1 protein for PKR inhibition, we generated a set of mutant viruses, identifying highly conserved arginine residues 35 and 46 within the NS1 N terminus as being most critical not only for binding to and blocking activation of PKR but also for efficient virus propagation. Biochemical and Förster resonance energy transfer (FRET)-based interaction studies showed that mutation of R35 or R46 allowed formation of NS1 dimers but eliminated any detectable binding to PKR as well as to double-stranded RNA (dsRNA). Using and approaches to phenotypic restoration, we demonstrated the essential role of the NS1 N terminus for blocking PKR. The strong attenuation conferred by NS1 mutation R35A or R46A was substantially alleviated by stable knockdown of PKR in human cells. Intriguingly, both NS1 mutant viruses did not trigger any signs of disease in PKR mice, but replicated to high titers in lungs of PKR mice and caused lethal infections. These data not only establish the NS1 N terminus as highly critical for neutralization of PKR's antiviral activity but also identify this blockade as an indispensable contribution of NS1 to the viral life cycle. Influenza A virus inhibits activation of the RNA-dependent protein kinase (PKR) by means of its nonstructural NS1 protein, but the underlying mode of inhibition is debated. Using mutational analysis, we identified arginine residues 35 and 46 within the N-terminal NS1 domain as highly critical for binding to and functional silencing of PKR. In addition, our data show that this is a main activity of amino acids 35 and 46, as the strong attenuation of corresponding mutant viruses in human cells was rescued to a large extent by lowering of PKR expression levels. Significantly, this corresponded with restoration of viral virulence for NS1 R35A and R46A mutant viruses in PKR mice. 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The pleiotropic NS1 protein of influenza A virus acts as silencer of PKR activation and ensures high-level viral replication and virulence. However, the exact manner of this inhibition remains controversial. To elucidate the structural requirements within the NS1 protein for PKR inhibition, we generated a set of mutant viruses, identifying highly conserved arginine residues 35 and 46 within the NS1 N terminus as being most critical not only for binding to and blocking activation of PKR but also for efficient virus propagation. Biochemical and Förster resonance energy transfer (FRET)-based interaction studies showed that mutation of R35 or R46 allowed formation of NS1 dimers but eliminated any detectable binding to PKR as well as to double-stranded RNA (dsRNA). Using and approaches to phenotypic restoration, we demonstrated the essential role of the NS1 N terminus for blocking PKR. The strong attenuation conferred by NS1 mutation R35A or R46A was substantially alleviated by stable knockdown of PKR in human cells. Intriguingly, both NS1 mutant viruses did not trigger any signs of disease in PKR mice, but replicated to high titers in lungs of PKR mice and caused lethal infections. These data not only establish the NS1 N terminus as highly critical for neutralization of PKR's antiviral activity but also identify this blockade as an indispensable contribution of NS1 to the viral life cycle. Influenza A virus inhibits activation of the RNA-dependent protein kinase (PKR) by means of its nonstructural NS1 protein, but the underlying mode of inhibition is debated. Using mutational analysis, we identified arginine residues 35 and 46 within the N-terminal NS1 domain as highly critical for binding to and functional silencing of PKR. In addition, our data show that this is a main activity of amino acids 35 and 46, as the strong attenuation of corresponding mutant viruses in human cells was rescued to a large extent by lowering of PKR expression levels. Significantly, this corresponded with restoration of viral virulence for NS1 R35A and R46A mutant viruses in PKR mice. 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Jolmes, Fabian ; Bespalowa, Julia ; Saenger, Sandra ; Peteranderl, Christin ; Dzieciolowski, Julia ; Mielke, Maja ; Budt, Matthias ; Pleschka, Stephan ; Herrmann, Andreas ; Herold, Susanne ; Wolff, Thorsten</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c417t-b78b5e9f7fa9d8cb601e19bc647e384aef7f65d4da1e60f3433388e0d84c19413</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2017</creationdate><topic>Amino Acids - chemistry</topic><topic>Animals</topic><topic>Cell Line</topic><topic>eIF-2 Kinase - antagonists &amp; inhibitors</topic><topic>eIF-2 Kinase - genetics</topic><topic>eIF-2 Kinase - metabolism</topic><topic>Enzyme Activation</topic><topic>Host-Pathogen Interactions</topic><topic>Humans</topic><topic>Immunity, Innate</topic><topic>Influenza A virus</topic><topic>Influenza A virus - chemistry</topic><topic>Influenza A virus - genetics</topic><topic>Influenza A virus - pathogenicity</topic><topic>Lung - virology</topic><topic>Mice</topic><topic>Mutation</topic><topic>Orthomyxoviridae</topic><topic>Pathogenesis and Immunity</topic><topic>Viral Nonstructural Proteins - chemistry</topic><topic>Viral Nonstructural Proteins - genetics</topic><topic>Viral Nonstructural Proteins - metabolism</topic><topic>Virulence</topic><topic>Virus Replication</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Schierhorn, Kristina L</creatorcontrib><creatorcontrib>Jolmes, Fabian</creatorcontrib><creatorcontrib>Bespalowa, Julia</creatorcontrib><creatorcontrib>Saenger, Sandra</creatorcontrib><creatorcontrib>Peteranderl, Christin</creatorcontrib><creatorcontrib>Dzieciolowski, Julia</creatorcontrib><creatorcontrib>Mielke, Maja</creatorcontrib><creatorcontrib>Budt, Matthias</creatorcontrib><creatorcontrib>Pleschka, Stephan</creatorcontrib><creatorcontrib>Herrmann, Andreas</creatorcontrib><creatorcontrib>Herold, Susanne</creatorcontrib><creatorcontrib>Wolff, Thorsten</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>Nucleic Acids Abstracts</collection><collection>Virology and AIDS Abstracts</collection><collection>AIDS and Cancer Research Abstracts</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Journal of virology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Schierhorn, Kristina L</au><au>Jolmes, Fabian</au><au>Bespalowa, Julia</au><au>Saenger, Sandra</au><au>Peteranderl, Christin</au><au>Dzieciolowski, Julia</au><au>Mielke, Maja</au><au>Budt, Matthias</au><au>Pleschka, Stephan</au><au>Herrmann, Andreas</au><au>Herold, Susanne</au><au>Wolff, Thorsten</au><au>García-Sastre, Adolfo</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Influenza A Virus Virulence Depends on Two Amino Acids in the N-Terminal Domain of Its NS1 Protein To Facilitate Inhibition of the RNA-Dependent Protein Kinase PKR</atitle><jtitle>Journal of virology</jtitle><addtitle>J Virol</addtitle><date>2017-05-15</date><risdate>2017</risdate><volume>91</volume><issue>10</issue><issn>0022-538X</issn><eissn>1098-5514</eissn><abstract>The RNA-dependent protein kinase (PKR) has broad antiviral activity inducing translational shutdown of viral and cellular genes and is therefore targeted by various viral proteins to facilitate pathogen propagation. The pleiotropic NS1 protein of influenza A virus acts as silencer of PKR activation and ensures high-level viral replication and virulence. However, the exact manner of this inhibition remains controversial. To elucidate the structural requirements within the NS1 protein for PKR inhibition, we generated a set of mutant viruses, identifying highly conserved arginine residues 35 and 46 within the NS1 N terminus as being most critical not only for binding to and blocking activation of PKR but also for efficient virus propagation. Biochemical and Förster resonance energy transfer (FRET)-based interaction studies showed that mutation of R35 or R46 allowed formation of NS1 dimers but eliminated any detectable binding to PKR as well as to double-stranded RNA (dsRNA). Using and approaches to phenotypic restoration, we demonstrated the essential role of the NS1 N terminus for blocking PKR. The strong attenuation conferred by NS1 mutation R35A or R46A was substantially alleviated by stable knockdown of PKR in human cells. Intriguingly, both NS1 mutant viruses did not trigger any signs of disease in PKR mice, but replicated to high titers in lungs of PKR mice and caused lethal infections. These data not only establish the NS1 N terminus as highly critical for neutralization of PKR's antiviral activity but also identify this blockade as an indispensable contribution of NS1 to the viral life cycle. Influenza A virus inhibits activation of the RNA-dependent protein kinase (PKR) by means of its nonstructural NS1 protein, but the underlying mode of inhibition is debated. Using mutational analysis, we identified arginine residues 35 and 46 within the N-terminal NS1 domain as highly critical for binding to and functional silencing of PKR. In addition, our data show that this is a main activity of amino acids 35 and 46, as the strong attenuation of corresponding mutant viruses in human cells was rescued to a large extent by lowering of PKR expression levels. Significantly, this corresponded with restoration of viral virulence for NS1 R35A and R46A mutant viruses in PKR mice. Therefore, our data establish a model in which the NS1 N-terminal domain engages in a binding interaction to inhibit activation of PKR and ensure efficient viral propagation and virulence.</abstract><cop>United States</cop><pub>American Society for Microbiology</pub><pmid>28250123</pmid><doi>10.1128/JVI.00198-17</doi><oa>free_for_read</oa></addata></record>
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subjects Amino Acids - chemistry
Animals
Cell Line
eIF-2 Kinase - antagonists & inhibitors
eIF-2 Kinase - genetics
eIF-2 Kinase - metabolism
Enzyme Activation
Host-Pathogen Interactions
Humans
Immunity, Innate
Influenza A virus
Influenza A virus - chemistry
Influenza A virus - genetics
Influenza A virus - pathogenicity
Lung - virology
Mice
Mutation
Orthomyxoviridae
Pathogenesis and Immunity
Viral Nonstructural Proteins - chemistry
Viral Nonstructural Proteins - genetics
Viral Nonstructural Proteins - metabolism
Virulence
Virus Replication
title Influenza A Virus Virulence Depends on Two Amino Acids in the N-Terminal Domain of Its NS1 Protein To Facilitate Inhibition of the RNA-Dependent Protein Kinase PKR
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