Abstract
AbstractHuman adenoviruses (HAdV) are widespread pathogens causing infections of the respiratory and gastrointestinal tracts, genitourinary system and the eye. Species D (HAdV-D) are the most diverse species and cause both gastrointestinal tract infections and epidemic keratoconjunctivitis (EKC). Despite being significant pathogens, HAdV-D are understudied and knowledge around basic mechanisms of cell infection is lacking. Sialic acid (SA) usage has been proposed as a major mechanism of cell infection for EKC causing HAdV-D. Here, we provide apo state crystal structures for fiber knob proteins of 7 previously undetermined HAdV-D, and provide crystal structures of HAdV-D25, HAdV-D29 and HAdV-D53 knob proteins bound to SA. Biologically, we demonstrate that removal of cell surface SA reduced infectivity of HAdV-C5 vectors pseudotyped with HAdV-D fiber knob proteins, whilst engagement of the classical HAdV receptor, CAR was variable. Together, these data indicate an important role for SA engagement in the tropism of many HAdV-D and may facilitate the development of suitable antivirals to control EKC outbreaks.
Publisher
Cold Spring Harbor Laboratory