Sulfated liposome-based artificial cell membrane glycocalyx nanodecoys for coronavirus inactivation by membrane fusion

As a broad-spectrum antiviral nanoparticle, the cell membrane nanodecoy is a promising strategy for preventing viral infections. However, most of the cell membrane nanodecoys can only catch virus and cannot induce inactivation, which may bring about a considerably high risk of re-infection owing to the possible viral escape from the nanodecoys. To tackle this challenge, sulfated liposomes are employed to mimic the cell membrane glycocalyx for constructing an artificial cell membrane glycocalyx nanodecoy that exhibits excellent anti-coronavirus activity against HCoV-OC43, wild-type SARS-CoV-2, Alpha and Delta variant SARS-CoV-2 pseudovirus. In addition, this nanodecoy, loaded with surface sulfate groups as SARS-CoV-2 receptor arrays, can enhance the antiviral capability to virus inactivation through destroying the virus membrane structure and transfer the spike protein to postfusion conformation. Integrating bio-inspired recognition and inactivation of viruses in a single supramolecular entity, the artificial cell membrane nanodecoy opens a new avenue for the development of theranostic antiviral nanosystems, whose mass production is favored due to the facile engineering of sulfated liposomes. [Display omitted] •An antiviral artificial cell membrane glycocalyx nanodecoys with viral inactivation capability was fabricated using sulfated liposomes.•The artificial cell membrane glycocalyx nanodecoy showed a broad-spectrum anti-coronavirus ability.•The artificial cell membrane glycocalyx nanodecoy could activate the membrane fusion process of coronavirus, get membrane fusion with the viral membrane and destruct virual structure.•The membrane fusion process could inactivate viruses by transforming the spike protein of coronavirus from prefusion conformation to postfusion conformation.