Structures of human antibodies bound to SARS-CoV-2 spike reveal common epitopes and recurrent features of antibodies

  1. Christopher O. Barnes
  2. Anthony P. West
  3. Kathryn E. Huey-Tubman
  4. Magnus A.G. Hoffmann
  5. Naima G. Sharaf
  6. Pauline R. Hoffman
  7. Nicholas Koranda
  8. Harry B. Gristick
  9. Christian Gaebler
  10. Frauke Muecksch
  11. Julio C. Cetrulo Lorenzi
  12. Shlomo Finkin
  13. Thomas Hagglof
  14. Arlene Hurley
  15. Katrina G. Millard
  16. Yiska Weisblum
  17. Fabian Schmidt
  18. Theodora Hatziioannou
  19. Paul D. Bieniasz
  20. Marina Caskey
  21. Davide F. Robbiani
  22. Michel C. Nussenzweig
  23. Pamela J. Bjorkman
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Abstract

Neutralizing antibody responses to coronaviruses focus on the trimeric spike, with most against the receptor-binding domain (RBD). Here we characterized polyclonal IgGs and Fabs from COVID-19 convalescent individuals for recognition of coronavirus spikes. Plasma IgGs differed in their degree of focus on RBD epitopes, recognition of SARS-CoV, MERS-CoV, and mild coronaviruses, and how avidity effects contributed to increased binding/neutralization of IgGs over Fabs. Electron microscopy reconstructions of polyclonal plasma Fab-spike complexes showed recognition of both S1Aand RBD epitopes. A 3.4Å cryo-EM structure of a neutralizing monoclonal Fab-S complex revealed an epitope that blocks ACE2 receptor-binding on “up” RBDs. Modeling suggested that IgGs targeting these sites have different potentials for inter-spike crosslinking on viruses and would not be greatly affected by identified SARS-CoV-2 spike mutations. These studies structurally define a recurrent anti-SARS-CoV-2 antibody class derived fromVH3-53/VH3-66and similarity to a SARS-CoVVH3-30antibody, providing criteria for evaluating vaccine-elicited antibodies.

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