Antibody-directed evolution reveals a mechanism for enhanced neutralization at the HIV-1 fusion peptide site

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作者
Bailey B. Banach
Sergei Pletnev
Adam S. Olia
Kai Xu
Baoshan Zhang
Reda Rawi
Tatsiana Bylund
Nicole A. Doria-Rose
Thuy Duong Nguyen
Ahmed S. Fahad
Myungjin Lee
Bob C. Lin
Tracy Liu
Mark K. Louder
Bharat Madan
Krisha McKee
Sijy O’Dell
Mallika Sastry
Arne Schön
Natalie Bui
Chen-Hsiang Shen
Jacy R. Wolfe
Gwo-Yu Chuang
John R. Mascola
Peter D. Kwong
Brandon J. DeKosky
机构
[1] The University of Kansas,Bioengineering Graduate Program
[2] National Institutes of Health,Vaccine Research Center, National Institute of Allergy and Infectious Diseases
[3] The Ohio State University,Department of Veterinary Biosciences
[4] The University of Kansas,Department of Pharmaceutical Chemistry
[5] John Hopkins University,Department of Biology
[6] The University of Kansas,Department of Chemical Engineering
[7] Massachusetts Institute of Technology,Department of Chemical Engineering
[8] The Ragon Institute of MGH,undefined
[9] MIT,undefined
[10] and Harvard,undefined
来源
Nature Communications | / 14卷 / 1期
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摘要
The HIV-1 fusion peptide (FP) represents a promising vaccine target, but global FP sequence diversity among circulating strains has limited anti-FP antibodies to ~60% neutralization breadth. Here we evolve the FP-targeting antibody VRC34.01 in vitro to enhance FP-neutralization using site saturation mutagenesis and yeast display. Successive rounds of directed evolution by iterative selection of antibodies for binding to resistant HIV-1 strains establish a variant, VRC34.01_mm28, as a best-in-class antibody with 10-fold enhanced potency compared to the template antibody and ~80% breadth on a cross-clade 208-strain neutralization panel. Structural analyses demonstrate that the improved paratope expands the FP binding groove to accommodate diverse FP sequences of different lengths while also recognizing the HIV-1 Env backbone. These data reveal critical antibody features for enhanced neutralization breadth and potency against the FP site of vulnerability and accelerate clinical development of broad HIV-1 FP-targeting vaccines and therapeutics.
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