Author
Listed:
- Christopher O. Barnes
(California Institute of Technology)
- Harry B. Gristick
(California Institute of Technology)
- Natalia T. Freund
(The Rockefeller University
Tel Aviv University)
- Amelia Escolano
(The Rockefeller University)
- Artem Y. Lyubimov
(Stanford Synchrotron Radiation Lightsource)
- Harald Hartweger
(The Rockefeller University)
- Anthony P. West
(California Institute of Technology)
- Aina E. Cohen
(Stanford Synchrotron Radiation Lightsource)
- Michel C. Nussenzweig
(The Rockefeller University
The Rockefeller University)
- Pamela J. Bjorkman
(California Institute of Technology)
Abstract
Broadly neutralizing antibodies (bNAbs) isolated from HIV-1-infected individuals inform HIV-1 vaccine design efforts. Developing bNAbs with increased efficacy requires understanding how antibodies interact with the native oligomannose and complex-type N-glycan shield that hides most protein epitopes on HIV-1 envelope (Env). Here we present crystal structures, including a 3.8-Å X-ray free electron laser dataset, of natively glycosylated Env trimers complexed with BG18, the most potent V3/N332gp120 glycan-targeting bNAb reported to date. Our structures show conserved contacts mediated by common D gene-encoded residues with the N332gp120 glycan and the gp120 GDIR peptide motif, but a distinct Env-binding orientation relative to PGT121/10-1074 bNAbs. BG18’s binding orientation provides additional contacts with N392gp120 and N386gp120 glycans near the V3-loop base and engages protein components of the V1-loop. The BG18-natively-glycosylated Env structures facilitate understanding of bNAb–glycan interactions critical for using V3/N332gp120 bNAbs therapeutically and targeting their epitope for immunogen design.
Suggested Citation
Christopher O. Barnes & Harry B. Gristick & Natalia T. Freund & Amelia Escolano & Artem Y. Lyubimov & Harald Hartweger & Anthony P. West & Aina E. Cohen & Michel C. Nussenzweig & Pamela J. Bjorkman, 2018.
"Structural characterization of a highly-potent V3-glycan broadly neutralizing antibody bound to natively-glycosylated HIV-1 envelope,"
Nature Communications, Nature, vol. 9(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-03632-y
DOI: 10.1038/s41467-018-03632-y
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