Identification of a broad and potent V3 glycan site bNAb targeting an N332gp120 glycan-independent epitope

  1. Lutz Gieselmann
  2. Andrew T. DeLaitsch
  3. Malena Rohde
  4. Caelan Radford
  5. Johanna Worczinski
  6. Anna Momot
  7. Elvin Ahmadov
  8. Judith A. Burger
  9. Colin Havenar-Daughton
  10. Sharvari Deshpande
  11. Federico Giovannoni
  12. Davide Corti
  13. Christoph Kreer
  14. Meryem Seda Ercanoglu
  15. Philipp Schommers
  16. Ivelin S. Georgiev
  17. Anthony P. West
  18. Jacqueline Knüfer
  19. Ricarda Stumpf
  20. Arne Kroidl
  21. Christof Geldmacher
  22. Lucas Maganga
  23. Wiston William
  24. Nyanda E. Ntinginya
  25. Michael Hoelscher
  26. Zhengrong Yang
  27. Qing Wei
  28. Matthew Renfrow
  29. Todd J. Green
  30. Jan Novak
  31. Marit J. van Gils
  32. Harry B. Gristick
  33. Henning Gruell
  34. Jesse D. Bloom
  35. Michael S. Seaman
  36. Pamela J. Bjorkman
  37. Florian Klein
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Abstract

Broadly neutralizing antibodies (bNAbs) against HIV-1 can suppress viremia in vivo and inform vaccine development. Here, we characterized 007, a V3 glycan site bNAb exhibiting high levels of antiviral activity against multiclade pseudovirus panels1–3 (GeoMean IC50 = 0.012 µg/mL, breadth = 69%, 217 virus strains) by targeting a N332gp120 glycan-independent V3 epitope, a site of Env vulnerability to which only weakly neutralizing antibodies had previously been identified. Functional analyses demonstrated distinct binding and neutralization profiles compared to classical V3 glycan site bNAbs. A 007 Fab-Env cryo-EM structure revealed contacts with the V3 324GD/NIR327 motif and interactions with N156gp120 and N301gp120 glycans. In contrast to classical V3 bNAbs, 007 binding to Env does not depend on the N332gp120 glycan, rendering it resistant to common escape mutations. Structures of 007 IgG-Env trimer complexes showed two Env trimers crosslinked by three bivalent IgGs, and bivalent 007 IgG was up to ∼300-fold more potent than monovalent 007 IgG heterodimer, suggesting a role for avidity in potent neutralization. Finally, in HIV-1ADA-infected humanized mice, 007 caused transient decline of viremia and overcame classical V3 escape mutations, highlighting 007’s potential for HIV-1 prevention, therapy, functional cure, and vaccine design.

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