Abstract
To develop a novel attenuation strategy applicable to all influenza A viruses, we targeted the highly conserved protein-protein interaction of the viral polymerase subunits PA and PB1. We postulated that impaired binding between PA and PB1 would negatively affect trimeric polymerase complex formation, leading to reduced viral replication efficiency in vivo. As proof of concept, we introduced single or multiple amino acid substitutions into the protein-protein-binding domains of either PB1 or PA, or both, to decrease binding affinity and polymerase activity substantially. As expected, upon generation of recombinant influenza A viruses (SC35M strain) containing these mutations, many pseudo-revertants appeared that partially restored PA-PB1 binding and polymerase activity. These polymerase assembly mutants displayed drastic attenuation in cell culture and mice. The attenuation of the polymerase assembly mutants was maintained in IFNα/β receptor knock-out mice. As exemplified using a H5N1 polymerase assembly mutant, this attenuation strategy can be also applied to other highly pathogenic influenza A virus strains. Thus, we provide proof of principle that targeted mutation of the highly conserved interaction domains of PA and PB1 represents a novel strategy to attenuate influenza A viruses.
Highlights
Thermore, the live vaccine used in the 2007–2008 season was 50% less efficacious than the inactivated vaccine that was used [5]
To vary the degree of attenuation and to identify new sites that contribute to the safety of live vaccines, new attenuation approaches applicable for all FluA strains are desirable
The first step is the generation of PA or PB1 mutant proteins with substantially impaired polymerase activity and subunit interaction
Summary
Thermore, the live vaccine used in the 2007–2008 season was 50% less efficacious than the inactivated vaccine that was used [5]. In the currently used influenza A virus (FluA) live vaccine, the degree of attenuation is fixed because a specific master strain is used [3]. Several recently published crystal structures have defined the highly conserved protein-protein-binding domains for PAPB1 and PB1-PB2 [11,12,13]. Alteration of these conserved residues abrogates subunit interactions accompanied by restricted assembly of polymerase heterotrimers, resulting in decreased polymerase activities [6, 14]. Targeting of the highly conserved protein-protein interaction domains of PA and PB1 represents a novel strategy to attenuate influenza A viruses
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