Sialic acid-Dependent Binding and Viral Entry of SARS-CoV-2

  1. Linh Nguyen
  2. Kelli A. McCord
  3. Duong T. Bui
  4. Kim M. Bouwman
  5. Elena N. Kitova
  6. Dhanraj Kumawat
  7. Gour C. Daskhan
  8. Ilhan Tomris
  9. Ling Han
  10. Pradeep Chopra
  11. Tzu-Jing Yang
  12. Steven D. Willows
  13. Andrew L. Mason
  14. Todd L. Lowary
  15. Lori J. West
  16. Shang-Te Danny Hsu
  17. S. Mark Tompkins
  18. Geert-Jan Boons
  19. Robert P. de Vries
  20. Matthew S. Macauley
  21. John S. Klassen
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Abstract

Emerging evidence suggests that host glycans influence infection by SARS-CoV-2. Here, we reveal that the receptor-binding domain (RBD) of the spike (S)-protein on SARS-CoV-2 recognizes oligosaccharides containing sialic acid (SA), with preference for the oligosaccharide of monosialylated gangliosides. Gangliosides embedded within an artificial membrane also bind the RBD. The monomeric affinities (Kd= 100-200 μM) of gangliosides for the RBD are similar to heparan sulfate, another negatively charged glycan ligand of the RBD proposed as a viral coreceptor. RBD binding and infection of SARS-CoV-2 pseudotyped lentivirus to ACE2-expressing cells is decreased upon depleting cell surface SA level using three approaches: sialyltransferase inhibition, genetic knock-out of SA biosynthesis, or neuraminidase treatment. These effects on RBD binding and pseudotyped viral entry are recapitulated with pharmacological or genetic disruption of glycolipid biosynthesis. Together, these results suggest that sialylated glycans, specifically glycolipids, facilitate viral entry of SARS-CoV-2.

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