Consistent Induction of Broadly Neutralizing HIV Antibodies by a Novel Two-Step Mechanism Informs Immunogen Design

Ashwin N. Skelly
Harry B. Gristick
Hui Li
Edem Gavor
Andrew J. Connell
Edward F. Kreider
Lorie Marchitto
Michael P. Hogarty
Maddy L. Newby
Joel D. Allen
Weimin Liu
Anthony P. West
Kasirajan Ayyanathan
Mary S. Campion
Kaitlyn Winters
Colette G. Gordon
Rebecca A. Osbaldeston
Macy J. Akeley
Yingying Li
Ajay Singh
Kendra Cruickshank
Younghoon Park
Chengyan Zhao
Xuduo Li
Khaled Amereh
Elizabeth Van Itallie
John W. Carey
Amie Albertus
Andrew T. DeLaitsch
Jennifer R. Keeffe
Melinda G. Lituchy
Agnes A. Walsh
Daniel J. Morris
Rumi Habib
Frederic Bibollet-Ruche
Nitesh Mishra
Gabriel Avillion
Nicholas S. Koranda
Samantha J. Plante
Christian L. Martella
Jinery Lora
Eric J. D. Wang
Mark G. Lewis
Malcolm A. Martin
Michel C. Nussenzweig
Michael S. Seaman
Darrell J. Irvine
Kevin J. Wiehe
Barton F. Haynes
Kshitij Wagh
Bette T. Korber
Raiees Andrabi
Max Crispin
Drew Weissman
Pamela J. Bjorkman
Beatrice H. Hahn
George M. Shaw

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Abstract

A major obstacle confronting HIV-1 vaccine and cure research is the lack of an outbred animal model for rapid and consistent induction of broadly neutralizing antibodies (bNAbs). We designed an epitope-focused simian-human immunodeficiency virus (SHIV.5MUT) that elicited broad and potent V3-glycan-targeted antibodies within a year of infection in 14 of 22 macaques compared with 0 of 14 control animals. SHIV.5MUT elicited bNAbs by a novel two-step mechanism, inducing an initial wave of V1-directed antibodies that selected for Envs with shortened, hypoglycosylated V1 loops, which in turn primed V3-glycan bNAb precursors. Rhesus bNAbs were immunogenetically and structurally diverse, closely resembling human V3-glycan bNAbs. Env-bNAb coevolution revealed a diverse repertoire of bNAb precursors and the Env variants that matured them, yielding a molecular blueprint for vaccine design.

Version published to 10.1101/2025.10.06.680687 on bioRxiv
Oct 6, 2025

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Vaccine Elicitation of HIV-1 Neutralizing Antibodies Against Both V2 Apex and Fusion Peptide in Rhesus Macaques

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