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High-Speed AFM Reveals Molecular Dynamics of Human Influenza A Hemagglutinin and Its Interaction with Exosomes

Keesiang Lim, Noriyuki Kodera, Hanbo Wang, Mahmoud Shaaban Mohamed, Masaharu Hazawa, Akiko Kobayashi, Takeshi Yoshida, Rikinari Hanayama, Seiji Yano, Toshio Ando, Richard W. Wong

2020Nano Letters38 citationsDOIOpen Access PDF

Abstract

Influenza A hemagglutinin (HA) is one of the crucial virulence factors that mediate host tropism and viral infectivity. Presently, the mechanism of the fusogenic transition of HA remains elusive. Here, we used high-speed atomic force microscopy (HS-AFM) to decipher the molecular dynamics of HA and its interaction with exosomes. Our data reveal that the native conformation of HA in the neutral buffer is ellipsoidal, and HA undergoes a conformational change in an acidic buffer. Real-time visualization of the fusogenic transition by HS-AFM suggests that the mechanism is possibly fit to the "uncaging" model, and HA intermediate appears as Y-shaped. A firm interaction between the HA and exosome in an acidic buffer indicates the insertion of a fusion peptide into the exosomal layer and subsequently destabilizes the layer, resulting in the deformation or rupture of exosomes, releasing exosomal contents. In contrast, the HA-exosome interaction is weak in a neutral buffer because the interaction is mediated by weak bonds between the HA receptor-binding site and receptors on the exosome.

Topics & Concepts

BiophysicsHemagglutinin (influenza)ChemistryMicrovesiclesExosomeAtomic force microscopyLiposomeInfectivityConformational changeMolecular dynamicsCell biologyCrystallographyNanotechnologyBiologyMaterials scienceBiochemistryVirologyVirusGenemicroRNAComputational chemistryLipid Membrane Structure and BehaviorRespiratory viral infections researchInfluenza Virus Research Studies
High-Speed AFM Reveals Molecular Dynamics of Human Influenza A Hemagglutinin and Its Interaction with Exosomes | Litcius