Litcius/Paper detail

A Norovirus Uses Bile Salts To Escape Antibody Recognition While Enhancing Receptor Binding

Alexis Williams, Michael B. Sherman, Hong Q. Smith, Stefan Taube, B. Montgomery Pettitt, Christiane E. Wobus, Thomas J. Smith

2021Journal of Virology22 citationsDOIOpen Access PDF

Abstract

The major feature of calicivirus capsids is the 90 protruding domains (P domains) that are the site of cell receptor attachment and antibody epitopes. We demonstrated previously that these P domains are highly mobile and that bile causes these "floating" P domains in mouse norovirus (MNV) to contract onto the shell surface. Here, we present the near-atomic cryo-EM structure of the isolated MNV P domain complexed with a neutralizing Fab fragment. Our data show that bile causes two sets of changes. First, bile causes allosteric conformational changes in the epitopes at the top of the P domain that block antibody binding. Second, bile causes the P domain dimer subunits to rotate relative to each other, causing a contraction of the P domain that buries epitopes at the base of the P and shell domains. Taken together, the results show that MNV uses the host's own metabolites to enhance cell receptor binding while simultaneously blocking antibody recognition.

Topics & Concepts

BiologyAntibodyCapsidNorovirusCaliciviridaeBiophysicsReceptorAllosteric regulationImmune escapeVirologyCell biologyVirusBiochemistryImmune systemGeneticsViral gastroenteritis research and epidemiologyViral Infections and Immunology ResearchAnimal Virus Infections Studies