Structural constraints determine the glycosylation of HIV-1 envelope trimers
Structural constraints determine the glycosylation of HIV-1 envelope trimers
A highly glycosylated, trimeric envelope glycoprotein (Env) mediates HIV-1 cell entry. The high density and heterogeneity of the glycans shield Env from recognition by the immune system, but paradoxically, many potent broadly neutralizing antibodies (bNAbs) recognize epitopes involving this glycan shield. To better understand Env glycosylation and its role in bNAb recognition, we characterized a soluble, cleaved recombinant trimer (BG505 SOSIP.664) that is a close structural and antigenic mimic of native Env. Large, unprocessed oligomannose-type structures (Man8-9GlcNAc2) are notably prevalent on the gp120 components of the trimer, irrespective of the mammalian cell expression system or the bNAb used for affinity purification. In contrast, gp41 subunits carry more highly processed glycans. The glycans on uncleaved, non-native oligomeric gp140 proteins are also highly processed. A homogeneous, oligomannose-dominated glycan profile is therefore a hallmark of a native Env conformation and a potential Achilles' heel that can be exploited for bNAb recognition and vaccine design. The HIV-1 envelope spike is the major target for vaccine design. Pritchard et al. show that the quaternary structure of this trimeric glycoprotein determines the processing of its extensive glycan coat. Structural constraints inhibit cellular processing, leaving a largely homogeneous oligomannose population that can be targeted by the immune system.
1604-1613
Pritchard, Laura K.
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Vasiljevic, Snezana
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Ozorowski, Gabriel
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Seabright, Gemma E.
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Cupo, Albert
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Ringe, Rajesh
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Kim, Helen J.
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Sanders, Rogier W.
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Doores, Katie J.
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Burton, Dennis R.
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Wilson, Ian A.
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Ward, Andrew B.
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Moore, John P.
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Crispin, Max
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16 June 2015
Pritchard, Laura K.
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Vasiljevic, Snezana
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Ozorowski, Gabriel
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Seabright, Gemma E.
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Cupo, Albert
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Ringe, Rajesh
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Kim, Helen J.
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Sanders, Rogier W.
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Doores, Katie J.
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Burton, Dennis R.
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Wilson, Ian A.
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Ward, Andrew B.
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Moore, John P.
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Crispin, Max
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Pritchard, Laura K., Vasiljevic, Snezana, Ozorowski, Gabriel, Seabright, Gemma E., Cupo, Albert, Ringe, Rajesh, Kim, Helen J., Sanders, Rogier W., Doores, Katie J., Burton, Dennis R., Wilson, Ian A., Ward, Andrew B., Moore, John P. and Crispin, Max
(2015)
Structural constraints determine the glycosylation of HIV-1 envelope trimers.
Cell Reports, 11 (10), .
(doi:10.1016/j.celrep.2015.05.017).
Abstract
A highly glycosylated, trimeric envelope glycoprotein (Env) mediates HIV-1 cell entry. The high density and heterogeneity of the glycans shield Env from recognition by the immune system, but paradoxically, many potent broadly neutralizing antibodies (bNAbs) recognize epitopes involving this glycan shield. To better understand Env glycosylation and its role in bNAb recognition, we characterized a soluble, cleaved recombinant trimer (BG505 SOSIP.664) that is a close structural and antigenic mimic of native Env. Large, unprocessed oligomannose-type structures (Man8-9GlcNAc2) are notably prevalent on the gp120 components of the trimer, irrespective of the mammalian cell expression system or the bNAb used for affinity purification. In contrast, gp41 subunits carry more highly processed glycans. The glycans on uncleaved, non-native oligomeric gp140 proteins are also highly processed. A homogeneous, oligomannose-dominated glycan profile is therefore a hallmark of a native Env conformation and a potential Achilles' heel that can be exploited for bNAb recognition and vaccine design. The HIV-1 envelope spike is the major target for vaccine design. Pritchard et al. show that the quaternary structure of this trimeric glycoprotein determines the processing of its extensive glycan coat. Structural constraints inhibit cellular processing, leaving a largely homogeneous oligomannose population that can be targeted by the immune system.
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More information
Accepted/In Press date: 11 May 2015
e-pub ahead of print date: 4 June 2015
Published date: 16 June 2015
Identifiers
Local EPrints ID: 414311
URI: http://eprints.soton.ac.uk/id/eprint/414311
ISSN: 2211-1247
PURE UUID: f8218b21-cd92-4279-b5e0-ed80f5742a8f
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Date deposited: 26 Sep 2017 16:30
Last modified: 11 Jul 2024 01:58
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Contributors
Author:
Laura K. Pritchard
Author:
Snezana Vasiljevic
Author:
Gabriel Ozorowski
Author:
Gemma E. Seabright
Author:
Albert Cupo
Author:
Rajesh Ringe
Author:
Helen J. Kim
Author:
Rogier W. Sanders
Author:
Katie J. Doores
Author:
Dennis R. Burton
Author:
Ian A. Wilson
Author:
Andrew B. Ward
Author:
John P. Moore
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