mAbs (Jan 2021)

A matrix of structure-based designs yields improved VRC01-class antibodies for HIV-1 therapy and prevention

  • Young D. Kwon,
  • Mangaiarkarasi Asokan,
  • Jason Gorman,
  • Baoshan Zhang,
  • Qingbo Liu,
  • Mark K. Louder,
  • Bob C. Lin,
  • Krisha McKee,
  • Amarendra Pegu,
  • Raffaello Verardi,
  • Eun Sung Yang,
  • VRC Production Program,
  • Kevin Carlton,
  • Nicole A. Doria-Rose,
  • Paolo Lusso,
  • John R. Mascola,
  • Peter D. Kwong

DOI
https://doi.org/10.1080/19420862.2021.1946918
Journal volume & issue
Vol. 13, no. 1

Abstract

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Passive transfer of broadly neutralizing antibodies is showing promise in the treatment and prevention of HIV-1. One class of antibodies, the VRC01 class, appears especially promising. To improve VRC01-class antibodies, we combined structure-based design with a matrix-based approach to generate VRC01-class variants that filled an interfacial cavity, used diverse third-complementarity-determining regions, reduced potential steric clashes, or exploited extended contacts to a neighboring protomer within the envelope trimer. On a 208-strain panel, variant VRC01.23LS neutralized 90% of the panel at a geometric mean IC80 less than 1 μg/ml, and in transgenic mice with human neonatal-Fc receptor, the serum half-life of VRC01.23LS was indistinguishable from that of the parent VRC01LS, which has a half-life of 71 d in humans. A cryo-electron microscopy structure of VRC01.23 Fab in complex with BG505 DS-SOSIP.664 Env trimer determined at 3.4-Å resolution confirmed the structural basis for its ~10-fold improved potency relative to VRC01. Another variant, VRC07-523-F54-LS.v3, neutralized 95% of the 208-isolated panel at a geometric mean IC80 of less than 1 μg/ml, with a half-life comparable to that of the parental VRC07-523LS. Our matrix-based structural approach thus enables the engineering of VRC01 variants for HIV-1 therapy and prevention with improved potency, breadth, and pharmacokinetics.

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