Fucose Binding Cancels out Mechanical Differences between Distinct Human Noroviruses

The majority of nonbacterial gastroenteritis in humans and livestock is caused by noroviruses.Like most RNA viruses, frequent mutations result in various norovirus variants. The strain-dependentbinding profiles of noroviruses to fucose are supposed to facilitate norovirus infection. It remains unclear, however, what the molecular mechanism behind strain-dependent functioning is. In this study,by applying atomic force microscopy (AFM) nanoindentation technology, we studied norovirus-likeparticles (noroVLPs) of three distinct human norovirus variants. We found differences in viral mechanical properties even between the norovirus variants from the same genogroup. The noroVLPswere then subjected to fucose treatment. Surprisingly, after fucose treatment, the previously foundconsiderable differences in viral mechanical properties among these variants were diminished. Weattribute a dynamic switch of the norovirus P domain upon fucose binding to the reduced differencesin viral mechanical properties across the tested norovirus variants. These findings shed light on themechanisms used by norovirus capsids to adapt to environmental changes and, possibly, increasecell infection. Hereby, a new step towards connecting viral mechanical properties to viral prevalenceis taken.<br/