SARS-CoV-2 Infection Depends on Cellular Heparan Sulfate and ACE2

  1. Thomas Mandel Clausen
  2. Daniel R. Sandoval
  3. Charlotte B. Spliid
  4. Jessica Pihl
  5. Chelsea D. Painter
  6. Bryan E. Thacker
  7. Charles A. Glass
  8. Anoop Narayanan
  9. Sydney A. Majowicz
  10. Yang Zhang
  11. Jonathan L. Torres
  12. Gregory J. Golden
  13. Ryan Porell
  14. Aaron F. Garretson
  15. Logan Laubach
  16. Jared Feldman
  17. Xin Yin
  18. Yuan Pu
  19. Blake Hauser
  20. Timothy M. Caradonna
  21. Benjamin P. Kellman
  22. Cameron Martino
  23. Philip L.S.M. Gordts
  24. Sandra L. Leibel
  25. Summit K. Chanda
  26. Aaron G. Schmidt
  27. Kamil Godula
  28. Joyce Jose
  29. Kevin D. Corbett
  30. Andrew B. Ward
  31. Aaron F. Carlin
  32. Jeffrey D. Esko
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Abstract

We show that SARS-CoV-2 spike protein interacts with cell surface heparan sulfate and angiotensin converting enzyme 2 (ACE2) through its Receptor Binding Domain. Docking studies suggest a putative heparin/heparan sulfate-binding site adjacent to the domain that binds to ACE2. In vitro, binding of ACE2 and heparin to spike protein ectodomains occurs independently and a ternary complex can be generated using heparin as a template. Contrary to studies with purified components, spike protein binding to heparan sulfate and ACE2 on cells occurs codependently. Unfractionated heparin, non-anticoagulant heparin, treatment with heparin lyases, and purified lung heparan sulfate potently block spike protein binding and infection by spike protein-pseudotyped virus and SARS-CoV-2 virus. These findings support a model for SARS-CoV-2 infection in which viral attachment and infection involves formation of a complex between heparan sulfate and ACE2. Manipulation of heparan sulfate or inhibition of viral adhesion by exogenous heparin may represent new therapeutic opportunities.

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