Adaptive flexible sialylated nanogels as highly potent influenza A virus inhibitors

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Adaptive flexible sialylated nanogels as highly potent influenza A virus inhibitors

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dc.​contributor.​author
Bhatia, Sumati
dc.​contributor.​author
Cuellar‐Camacho, Jose Luis
dc.​contributor.​author
Ludwig, Kai
dc.​contributor.​author
Nie, Chuanxiong
dc.​contributor.​author
Parshad, Badri
dc.​contributor.​author
Wallert, Matthias
dc.​contributor.​author
Block, Stephan
dc.​contributor.​author
Lauster, Daniel
dc.​contributor.​author
Böttcher, Christoph
dc.​contributor.​author
Haag, Rainer
dc.​date.​accessioned
2020-07-30T08:29:07Z
dc.​date.​available
2020-07-30T08:29:07Z
dc.​date.​issued
2020
dc.​identifier.​uri
https://refubium.fu-berlin.de/handle/fub188/27943
dc.​identifier.​uri
http://dx.doi.org/10.17169/refubium-27696
dc.​description.​abstract
Flexible multivalent 3D nanosystems that can deform and adapt onto the virus surface via specific ligand–receptor multivalent interactions can efficiently block virus adhesion onto the cell. We here report on the synthesis of a 250 nm sized flexible sialylated nanogel that adapts onto the influenza A virus (IAV) surface via multivalent binding of its sialic acid (SA) residues with hemagglutinin spike proteins on the virus surface. We could demonstrate that the high flexibility of sialylated nanogel improves IAV inhibition by 400 times as compared to a rigid sialylated nanogel in the hemagglutination inhibition assay. The flexible sialylated nanogel efficiently inhibits the influenza A/X31 (H3N2) infection with IC50 values in low picomolar concentrations and also blocks the virus entry into MDCK‐II cells.
en
dc.​format.​extent
6 Seiten
dc.​language
eng
dc.​rights.​uri
https://creativecommons.org/licenses/by/4.0/
dc.​subject
flexibility
en
dc.​subject
infection inhibition
en
dc.​subject
influenza A virus
en
dc.​subject
polyglycerols
en
dc.​subject
sialylated nanogels
en
dc.​subject.​ddc
500 Naturwissenschaften und Mathematik::540 Chemie::547 Organische Chemie
dc.​title
Adaptive flexible sialylated nanogels as highly potent influenza A virus inhibitors
dc.​type
Wissenschaftlicher Artikel
dcterms.​bibliographicCitation.​doi
10.1002/anie.202006145
dcterms.​bibliographicCitation.​journaltitle
Angewandte Chemie
dcterms.​bibliographicCitation.​number
30
dcterms.​bibliographicCitation.​pagestart
12417
dcterms.​bibliographicCitation.​pageend
12422
dcterms.​bibliographicCitation.​volume
59
dcterms.​bibliographicCitation.​url
https://doi.org/10.1002/anie.202006145
refubium.​affiliation
Biologie, Chemie, Pharmazie
refubium.​affiliation.​other
Institut für Chemie und Biochemie
refubium.​funding
DEAL Wiley
refubium.​note.​author
Die Publikation wurde aus Open Access Publikationsgeldern der Freien Universität Berlin gefördert.
refubium.​resourceType.​isindependentpub
no
dcterms.​accessRights.​openaire
open access
dcterms.​isPartOf.​eissn
1521-3757
refubium.​resourceType.​provider
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