The tetrameric plant lectin BanLec neutralizes HIV through bidentate binding to specific viral glycans
The tetrameric plant lectin BanLec neutralizes HIV through bidentate binding to specific viral glycans
Select lectins have powerful anti-viral properties that effectively neutralize HIV-1 by targeting the dense glycan shield on the virus. Here, we reveal the mechanism by which one of the most potent lectins, BanLec, achieves its inhibition. We identify that BanLec recognizes a subset of high-mannose glycans via bidentate interactions spanning the two binding sites present on each BanLec monomer that were previously considered separate carbohydrate recognition domains. We show that both sites are required for high-affinity glycan binding and virus neutralization. Unexpectedly we find that BanLec adopts a tetrameric stoichiometry in solution whereby the glycan-binding sites are positioned to optimally target glycosylated viral spikes. The tetrameric architecture, together with bidentate binding to individual glycans, leads to layers of multivalency that drive viral neutralization through enhanced avidity effects. These structural insights will prove useful in engineering successful lectin therapeutics targeting the dense glycan shield of HIV.
BanLec, Env, glycosylation, HIV, lectin
773-782.e5
Hopper, Jonathan T.S.
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Ambrose, Stephen
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Grant, Oliver C.
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Krumm, Stefanie A.
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Allison, Timothy M.
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Degiacomi, Matteo T.
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Tully, Mark D.
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Pritchard, Laura K.
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Ozorowski, Gabriel
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Ward, Andrew B.
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Crispin, Max
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Doores, Katie J.
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Woods, Robert J.
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Benesch, Justin L.P.
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Robinson, Carol V.
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Struwe, Weston B.
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2 May 2017
Hopper, Jonathan T.S.
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Ambrose, Stephen
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Grant, Oliver C.
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Krumm, Stefanie A.
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Allison, Timothy M.
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Degiacomi, Matteo T.
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Tully, Mark D.
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Pritchard, Laura K.
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Ozorowski, Gabriel
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Ward, Andrew B.
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Crispin, Max
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Doores, Katie J.
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Woods, Robert J.
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Benesch, Justin L.P.
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Robinson, Carol V.
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Struwe, Weston B.
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Hopper, Jonathan T.S., Ambrose, Stephen, Grant, Oliver C., Krumm, Stefanie A., Allison, Timothy M., Degiacomi, Matteo T., Tully, Mark D., Pritchard, Laura K., Ozorowski, Gabriel, Ward, Andrew B., Crispin, Max, Doores, Katie J., Woods, Robert J., Benesch, Justin L.P., Robinson, Carol V. and Struwe, Weston B.
(2017)
The tetrameric plant lectin BanLec neutralizes HIV through bidentate binding to specific viral glycans.
Structure, 25 (5), .
(doi:10.1016/j.str.2017.03.015).
Abstract
Select lectins have powerful anti-viral properties that effectively neutralize HIV-1 by targeting the dense glycan shield on the virus. Here, we reveal the mechanism by which one of the most potent lectins, BanLec, achieves its inhibition. We identify that BanLec recognizes a subset of high-mannose glycans via bidentate interactions spanning the two binding sites present on each BanLec monomer that were previously considered separate carbohydrate recognition domains. We show that both sites are required for high-affinity glycan binding and virus neutralization. Unexpectedly we find that BanLec adopts a tetrameric stoichiometry in solution whereby the glycan-binding sites are positioned to optimally target glycosylated viral spikes. The tetrameric architecture, together with bidentate binding to individual glycans, leads to layers of multivalency that drive viral neutralization through enhanced avidity effects. These structural insights will prove useful in engineering successful lectin therapeutics targeting the dense glycan shield of HIV.
Text
Struwe_Structure_2017_nihms889536
- Accepted Manuscript
More information
Accepted/In Press date: 23 March 2017
e-pub ahead of print date: 20 April 2017
Published date: 2 May 2017
Keywords:
BanLec, Env, glycosylation, HIV, lectin
Identifiers
Local EPrints ID: 414457
URI: http://eprints.soton.ac.uk/id/eprint/414457
ISSN: 0969-2126
PURE UUID: 66161dc8-65d3-44b2-a9e2-1f5c1eb67e09
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Date deposited: 29 Sep 2017 16:31
Last modified: 16 Mar 2024 05:45
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Contributors
Author:
Jonathan T.S. Hopper
Author:
Stephen Ambrose
Author:
Oliver C. Grant
Author:
Stefanie A. Krumm
Author:
Timothy M. Allison
Author:
Matteo T. Degiacomi
Author:
Mark D. Tully
Author:
Laura K. Pritchard
Author:
Gabriel Ozorowski
Author:
Andrew B. Ward
Author:
Katie J. Doores
Author:
Robert J. Woods
Author:
Justin L.P. Benesch
Author:
Carol V. Robinson
Author:
Weston B. Struwe
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