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1.
PLoS Pathog ; 17(3): e1009407, 2021 03.
Article in English | MEDLINE | ID: covidwho-1338134

ABSTRACT

Incessant antigenic evolution enables the persistence and spread of influenza virus in the human population. As the principal target of the immune response, the hemagglutinin (HA) surface antigen on influenza viruses continuously acquires and replaces N-linked glycosylation sites to shield immunogenic protein epitopes using host-derived glycans. Anti-glycan antibodies, such as 2G12, target the HIV-1 envelope protein (Env), which is even more extensively glycosylated and contains under-processed oligomannose-type clusters on its dense glycan shield. Here, we illustrate that 2G12 can also neutralize human seasonal influenza A H3N2 viruses that have evolved to present similar oligomannose-type clusters on their HAs from around 20 years after the 1968 pandemic. Using structural biology and mass spectrometric approaches, we find that two N-glycosylation sites close to the receptor binding site (RBS) on influenza hemagglutinin represent the oligomannose cluster recognized by 2G12. One of these glycan sites is highly conserved in all human H3N2 strains and the other emerged during virus evolution. These two N-glycosylation sites have also become crucial for fitness of recent H3N2 strains. These findings shed light on the evolution of the glycan shield on influenza virus and suggest 2G12-like antibodies can potentially act as broad neutralizers to target human enveloped viruses.


Subject(s)
Antibodies, Viral/immunology , HIV-1/immunology , Hemagglutinin Glycoproteins, Influenza Virus/immunology , Influenza A Virus, H3N2 Subtype/immunology , Broadly Neutralizing Antibodies , Cross Reactions , HIV Infections/immunology , Humans , Influenza, Human/immunology
2.
Nat Commun ; 11(1): 2688, 2020 05 27.
Article in English | MEDLINE | ID: covidwho-432476

ABSTRACT

Severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS) coronaviruses (CoVs) are zoonotic pathogens with high fatality rates and pandemic potential. Vaccine development focuses on the principal target of the neutralizing humoral immune response, the spike (S) glycoprotein. Coronavirus S proteins are extensively glycosylated, encoding around 66-87 N-linked glycosylation sites per trimeric spike. Here, we reveal a specific area of high glycan density on MERS S that results in the formation of oligomannose-type glycan clusters, which were absent on SARS and HKU1 CoVs. We provide a comparison of the global glycan density of coronavirus spikes with other viral proteins including HIV-1 envelope, Lassa virus glycoprotein complex, and influenza hemagglutinin, where glycosylation plays a known role in shielding immunogenic epitopes. Overall, our data reveal how organisation of glycosylation across class I viral fusion proteins influence not only individual glycan compositions but also the immunological pressure across the protein surface.


Subject(s)
Glycoproteins/immunology , Middle East Respiratory Syndrome Coronavirus , Polysaccharides , Spike Glycoprotein, Coronavirus/immunology , Viral Fusion Proteins/immunology , Coronavirus Infections/immunology , Coronavirus Infections/virology , Cryoelectron Microscopy , Epitopes/chemistry , Epitopes/immunology , Epitopes/metabolism , Glycoproteins/chemistry , Glycoproteins/ultrastructure , Glycosylation , HEK293 Cells , HIV-1/immunology , HIV-1/metabolism , Humans , Immune Evasion/physiology , Lassa virus/immunology , Lassa virus/metabolism , Middle East Respiratory Syndrome Coronavirus/immunology , Middle East Respiratory Syndrome Coronavirus/metabolism , Orthomyxoviridae/immunology , Orthomyxoviridae/metabolism , Polysaccharides/chemistry , Polysaccharides/immunology , Spike Glycoprotein, Coronavirus/chemistry , Spike Glycoprotein, Coronavirus/ultrastructure , Viral Fusion Proteins/chemistry , Viral Fusion Proteins/ultrastructure , Viral Proteins/chemistry , Viral Proteins/immunology , Viral Proteins/ultrastructure
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