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Plasticity of Amino Acid Residue 145 Near the Receptor Binding Site of H3 Swine Influenza A Viruses and Its Impact on Receptor Binding and Antibody Recognition.

Accepted version
Peer-reviewed

Type

Article

Change log

Authors

Santos, Jefferson JS  ORCID logo  https://orcid.org/0000-0001-5895-4163
Abente, Eugenio J 
Obadan, Adebimpe O 
Ferreri, Lucas 

Abstract

The hemagglutinin (HA), a glycoprotein on the surface of influenza A virus (IAV), initiates the virus life cycle by binding to terminal sialic acid (SA) residues on host cells. The HA gradually accumulates amino acid substitutions that allow IAV to escape immunity through a mechanism known as antigenic drift. We recently confirmed that a small set of amino acid residues are largely responsible for driving antigenic drift in swine-origin H3 IAV. All identified residues are located adjacent to the HA receptor binding site (RBS), suggesting that substitutions associated with antigenic drift may also influence receptor binding. Among those substitutions, residue 145 was shown to be a major determinant of antigenic evolution. To determine whether there are functional constraints to substitutions near the RBS and their impact on receptor binding and antigenic properties, we carried out site-directed mutagenesis experiments at the single-amino-acid level. We generated a panel of viruses carrying substitutions at residue 145 representing all 20 amino acids. Despite limited amino acid usage in nature, most substitutions at residue 145 were well tolerated without having a major impact on virus replication in vitro All substitution mutants retained receptor binding specificity, but the substitutions frequently led to decreased receptor binding. Glycan microarray analysis showed that substitutions at residue 145 modulate binding to a broad range of glycans. Furthermore, antigenic characterization identified specific substitutions at residue 145 that altered antibody recognition. This work provides a better understanding of the functional effects of amino acid substitutions near the RBS and the interplay between receptor binding and antigenic drift.IMPORTANCE The complex and continuous antigenic evolution of IAVs remains a major hurdle for vaccine selection and effective vaccination. On the hemagglutinin (HA) of the H3N2 IAVs, the amino acid substitution N 145 K causes significant antigenic changes. We show that amino acid 145 displays remarkable amino acid plasticity in vitro, tolerating multiple amino acid substitutions, many of which have not yet been observed in nature. Mutant viruses carrying substitutions at residue 145 showed no major impairment in virus replication in the presence of lower receptor binding avidity. However, their antigenic characterization confirmed the impact of the 145 K substitution in antibody immunodominance. We provide a better understanding of the functional effects of amino acid substitutions implicated in antigenic drift and its consequences for receptor binding and antigenicity. The mutation analyses presented in this report represent a significant data set to aid and test the ability of computational approaches to predict binding of glycans and in antigenic cartography analyses.

Description

Keywords

H3 subtype, hemagglutinin, influenza vaccines, swine influenza, virus evolution, Amino Acid Substitution, Animals, Antibodies, Viral, Binding Sites, Dogs, Genetic Drift, HEK293 Cells, Hemagglutinins, Viral, Humans, Influenza A virus, Madin Darby Canine Kidney Cells, Models, Molecular, Mutagenesis, Site-Directed, Polysaccharides, Protein Binding, Swine, Virus Replication

Journal Title

J Virol

Conference Name

Journal ISSN

0022-538X
1098-5514

Volume Title

93

Publisher

American Society for Microbiology
Sponsorship
National Institutes of Health (NIH) (via Mount Sinai School of Medicine (MSSM)) (0258-0513/HHSN272201400008C)
National Institutes of Health (NIH) (via Mount Sinai School of Medicine (MSSM)) (HHSN272201400008C)