Author: Nie, Chuanxiong; Parshad, Badri; Bhatia, Sumati; Cheng, Chong; Stadtmüller, Marlena; Oehrl, Alexander; Kerkhoff, Yannic; Wolff, Thorsten; Haag, Rainer
Title: Topologyâ€Matching Design of an Influenzaâ€Neutralizing Spiky Nanoparticleâ€Based Inhibitor with a Dual Mode of Action Cord-id: y5oltuq9 Document date: 2020_7_8
ID: y5oltuq9
Snippet: In this study, we demonstrate the concept of “topologyâ€matching design†for virus inhibitors. With the current knowledge of influenza A virus (IAV), we designed a nanoparticleâ€based inhibitor (nanoâ€inhibitor) that has a matched nanotopology to IAV virions and shows heteromultivalent inhibitory effects on hemagglutinin and neuraminidase. The synthesized nanoâ€inhibitor can neutralize the viral particle extracellularly and block its attachment and entry to the host cells. The virus repl
Document: In this study, we demonstrate the concept of “topologyâ€matching design†for virus inhibitors. With the current knowledge of influenza A virus (IAV), we designed a nanoparticleâ€based inhibitor (nanoâ€inhibitor) that has a matched nanotopology to IAV virions and shows heteromultivalent inhibitory effects on hemagglutinin and neuraminidase. The synthesized nanoâ€inhibitor can neutralize the viral particle extracellularly and block its attachment and entry to the host cells. The virus replication was significantly reduced by 6 orders of magnitude in the presence of the reverse designed nanoâ€inhibitors. Even when used 24 hours after the infection, more than 99.999 % inhibition is still achieved, which indicates such a nanoâ€inhibitor might be a potent antiviral for the treatment of influenza infection.
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