Functional and structural characterization of a combination of pan-sarbecovirus antibodies with potent antiviral activity

  1. Grace C. Marden
  2. Kimberly P. Schmitt
  3. Maxwell I. Zimmerman
  4. Alex H. Ramos
  5. Monica Z. Menzenski
  6. Geetika Sharma
  7. Hongru Li
  8. Eric Carlin
  9. Anne Jecrois
  10. Claudio L. Morales-Perez
  11. Eugene Palovcak
  12. Joseph D. Garlick
  13. Brett Hannigan
  14. Pamela Russell
  15. Ross S. Federman
  16. Alan Leung
  17. Nicole Leon Vargas
  18. Nadine M. Shaban
  19. Vishvesha Vaidya
  20. Hannah Towler
  21. Nathan H. Joh
  22. Dana M. Lord
  23. Jenhan Tao
  24. Zak Costello
  25. Vincent Frappier
  26. Kristen Hopson
  27. Amarendra Pegu
  28. Gavin C.K.W. Koh
  29. Heather Van Epps
  30. Adam Root
  31. Gevorg Grigoryan
  32. Daria Hazuda
  33. Francesco Borriello
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Abstract

Sarbecoviruses, a subgenus of coronaviruses, include strains with zoonotic spillover risk as exemplified by recent outbreaks (SARS-CoV-1, SARS-CoV-2). Monoclonal antibodies targeting conserved spike protein regions (RBD class 4, S2 fusion machinery) exhibit broad sarbecovirus neutralization, but their utility has been impacted by immune selection leading to escape and suboptimal neutralization. Using structure-conditioned machine-learning protein design we optimized two broadly neutralizing sarbecovirus antibodies to rescue the activity of a class 4 anti-RBD antibody against Omicron variants and improve the neutralization profile of an anti-S2 stem antibody, resulting in the identification of the lead candidates PRO-37587 and GB-0669. Both antibodies displayed remarkable resilience to SARS-CoV-2 evolution. Structural analyses elucidated the mechanistic basis of their broad neutralization profiles. In combination, these antibodies exhibited improved SARS-CoV-2 neutralizationin vitroandin vivoand a higher barrier to resistance. These findings support further evaluation of such antibody combination as countermeasure against current and emerging sarbecoviruses.

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