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Nanobody-Mediated Neutralization Reveals an Achilles Heel for Norovirus

A.D. Koromyslova, Jessica M. Devant, Turgay Kilic, Charles Sabin, Virginie Malak, Grant S. Hansman

2020Journal of Virology20 citationsDOIOpen Access PDF

Abstract

This research discovered and analyzed two different types of MNV-neutralizing nanobodies. The top-binding nanobodies sterically inhibited the receptor-binding site, whereas the dimeric-binding nanobodies interfered with a structural modification associated with cofactor binding. Moreover, we found that the capsid contained a number of vulnerable regions that were essential for viral replication. In fact, the capsid appeared to be organized in a state of flux, which could be important for cofactor/receptor-binding functions. Blocking these capsid-binding events with nanobodies directly inhibited essential capsid functions. Moreover, a number of MNV-specific nanobody binding epitopes were comparable to human norovirus-specific nanobody inhibitors. Therefore, this additional structural and inhibition information could be further exploited in the development of human norovirus antivirals.

Topics & Concepts

CapsidBiologyNorovirusEbolavirusBinding sitePlasma protein bindingVirologyNeutralizationEpitopeCell biologyVirusAntibodyBiochemistryEbola virusGeneticsViral gastroenteritis research and epidemiologyViral Infections and Immunology ResearchVirus-based gene therapy research