Preferential expansion upon boosting of cross-reactive “pre-existing” switched memory B cells that recognize the SARS-CoV-2 Omicron variant Spike protein

  1. Cory A. Perugino
  2. Hang Liu
  3. Jared Feldman
  4. Blake M. Hauser
  5. Catherine Jacob-Dolan
  6. Anusha Nathan
  7. Zezhou Zhou
  8. Clarety Kaseke
  9. Rhoda Tano-Menka
  10. Matthew A. Getz
  11. Fernando Senjobe
  12. Cristhian Berrios
  13. Onosereme Ofoman
  14. Jacob E. Lemieux
  15. Marcia B. Goldberg
  16. Kerstin Nundel
  17. Ann Moormann
  18. Ann Marshak-Rothstein
  19. John A. Iafrate
  20. Gaurav Gaiha
  21. Richelle Charles
  22. Alejandro B. Balazs
  23. Vivek Naranbhai
  24. Aaron G. Schmidt
  25. Shiv Pillai
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Abstract

In previously unvaccinated and uninfected individuals, non-RBD SARS-CoV-2 spike-specific B cells were prominent in two distinct, durable, resting, cross-reactive, “pre-existing” switched memory B cell compartments. While pre-existing RBD-specific B cells were extremely rare in uninfected and unvaccinated individuals, these two pre-existing switched memory B cell compartments were molded by vaccination and infection to become the primary source of RBD-specific B cells that are triggered by vaccine boosting. The frequency of wild-type RBD-binding memory B cells that cross-react with the Omicron variant RBD did not alter with boosting. In contrast, after a boost, B cells recognizing the full-length Omicron variant spike protein expanded, with pre-existing resting memory B cells differentiating almost quantitatively into effector B cell populations. B cells derived from “ancient” pre-existing memory cells and that recognize the full-length wild-type spike with the highest avidity after boosting are the B cells that also bind the Omicron variant spike protein.

Abstract Figure

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