Abstract
As a genus, the dependoviruses use a diverse group of cell surface carbohydrates for attachment and entry. Despite the fact that a majority of adeno-associated viruses (AAVs) utilize sialic acid (SIA) for binding and transduction, this virus-carbohydrate interaction is poorly understood. Utilizing X-ray crystallography, two SIA binding regions were mapped for AAV5. The first site mapped to the depression in the center of the 3-fold axis of symmetry, while the second site was located under the βHI loop close to the 5-fold axis. Mutagenesis of amino acids 569 and 585 or 587 within the 3-fold depression resulted in elimination or alteration in SIA-dependent transduction, respectively. This change in SIA binding was confirmed using glycan microarrays. Mutagenesis of the second site identified a role in transduction that was SIA independent. Further studies of the mutants at the 3-fold site demonstrated a change in transduction activity and cell tropism in vivo as well as resistance to neutralization by a polyclonal antibody raised against the wild-type virus. IMPORTANCE: Despite the fact that a majority of AAVs utilize sialic acid for binding and transduction, this virus-carbohydrate interaction is poorly understood. Utilizing X-ray crystallography, the sialic acid binding regions of AAV5 were identified and studied using a variety of approaches. Mutagenesis of this region resulted in elimination or alteration in sialic acid-dependent transduction in cell lines. This change in sialic acid glycan binding was confirmed using glycan arrays. Further study also demonstrated a change in transduction and activity and cell tropism in vivo as well as resistance to neutralization by antibodies raised against the wild-type virus.