Preparation of a thioxoimidazolidin-linked sialoside BSA conjugate for the inhibition of influenza virus

A novel thioxoimidazolidin-linked sialoside bovine serum albumin (WM-BSA) conjugate was synthesized and evaluated as an inhibitor of influenza virus hemagglutinin (HA) and neuraminidase (NA). The multivalent conjugate was prepared by the attachment of thioxoimidazolidin-sialoside monomer (WM) to BSA via adipate linker. Surface plasmon resonance analysis revealed that WM-BSA exhibited potent binding to recombinant influenza HA and NA proteins, with dissociation constants in the submicromolar range. WM-BSA also demonstrated inhibitory activities in the low micromolar range against HA and NA proteins from multiple influenza strains. Investigation of cytopathic effects in infected MDCK cells indicated that WM-BSA possessed antiviral activity with EC₅₀ values of 35-55 μM. The multivalent presentation of sialosides on the BSA scaffold significantly enhanced both the binding affinity and degree of inhibition compared to the monomeric compound WM. These results demonstrate the potential of multivalent sialoside-protein conjugate as a platform for developing novel anti-influenza agent.