Envelope glycans of immunodeficiency virions are almost entirely oligomannose antigens
Envelope glycans of immunodeficiency virions are almost entirely oligomannose antigens
The envelope spike of HIV is one of the most highly N-glycosylated structures found in nature. However, despite extensive research revealing essential functional roles in infection and immune evasion, the chemical structures of the glycans on the native viral envelope glycoprotein gp120 - as opposed to recombinantly generated gp120 - have not been described. Here, we report on the identity of the N-linked glycans from primary isolates of HIV-1 (clades A, B, and C) and from the simian immunodeficiency virus. MS analysis reveals a remarkably simple and highly conserved virus-specific glycan profile almost entirely devoid of medial Golgi-mediated processing. In stark contrast to recombinant gp120, which shows extensive exposure to cellular glycosylation enzymes (>70% complex type glycans), the native envelope shows barely detectable processing beyond the biosynthetic intermediate Man 5GlcNAc2 (<2% complex type glycans). This oligomannose (Man5-9GlcNAc2) profile is conserved across primary isolates and geographically divergent clades but is not reflected in the current generation of gp120 antigens used for vaccine trials. In the context of vaccine design, we also note that Manα1→2Man-terminating glycans (Man 6-9GlcNAc2) of the type recognized by the broadly neutralizing anti-HIV antibody 2G12 are 3-fold more abundant on the native envelope than on the recombinant monomer and are also found on isolates not neutralized by 2G12. The Manα1→2-Man residues of gp120 therefore provide a vaccine target that is physically larger and antigenically more conserved than the 2G12 epitope itself. This study revises and extends our understanding of the glycan shield of HIV with implications for AIDS vaccine design.
2G12, Glycosylation, gp120, HIV, Vaccine
13800-13805
Doores, Katie J.
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Bonomelli, Camille
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Harvey, David J.
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Vasiljevic, Snezana
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Dwek, Raymond A.
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Burton, Dennis R.
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Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Scanlan, Christopher N.
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3 August 2010
Doores, Katie J.
52d36150-7a62-4f9d-8348-c83a789d52e6
Bonomelli, Camille
51edb32c-85d0-45be-b050-b075cc3f6c28
Harvey, David J.
8bb24417-3852-4b1f-827b-0d5d2c176744
Vasiljevic, Snezana
17e075b4-520d-4b9b-a4a7-08ac394ae5e1
Dwek, Raymond A.
d8d9d5f8-f2c0-414e-b6b0-df77a33f0da4
Burton, Dennis R.
a628ce77-b694-4e3c-86a5-11f4e20e1c7c
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Scanlan, Christopher N.
04dd1b57-b6fc-414c-8595-08310dbb3d32
Doores, Katie J., Bonomelli, Camille, Harvey, David J., Vasiljevic, Snezana, Dwek, Raymond A., Burton, Dennis R., Crispin, Max and Scanlan, Christopher N.
(2010)
Envelope glycans of immunodeficiency virions are almost entirely oligomannose antigens.
Proceedings of the National Academy of Sciences of the United States of America, 107 (31), .
(doi:10.1073/pnas.1006498107).
Abstract
The envelope spike of HIV is one of the most highly N-glycosylated structures found in nature. However, despite extensive research revealing essential functional roles in infection and immune evasion, the chemical structures of the glycans on the native viral envelope glycoprotein gp120 - as opposed to recombinantly generated gp120 - have not been described. Here, we report on the identity of the N-linked glycans from primary isolates of HIV-1 (clades A, B, and C) and from the simian immunodeficiency virus. MS analysis reveals a remarkably simple and highly conserved virus-specific glycan profile almost entirely devoid of medial Golgi-mediated processing. In stark contrast to recombinant gp120, which shows extensive exposure to cellular glycosylation enzymes (>70% complex type glycans), the native envelope shows barely detectable processing beyond the biosynthetic intermediate Man 5GlcNAc2 (<2% complex type glycans). This oligomannose (Man5-9GlcNAc2) profile is conserved across primary isolates and geographically divergent clades but is not reflected in the current generation of gp120 antigens used for vaccine trials. In the context of vaccine design, we also note that Manα1→2Man-terminating glycans (Man 6-9GlcNAc2) of the type recognized by the broadly neutralizing anti-HIV antibody 2G12 are 3-fold more abundant on the native envelope than on the recombinant monomer and are also found on isolates not neutralized by 2G12. The Manα1→2-Man residues of gp120 therefore provide a vaccine target that is physically larger and antigenically more conserved than the 2G12 epitope itself. This study revises and extends our understanding of the glycan shield of HIV with implications for AIDS vaccine design.
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Published date: 3 August 2010
Keywords:
2G12, Glycosylation, gp120, HIV, Vaccine
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Local EPrints ID: 414592
URI: http://eprints.soton.ac.uk/id/eprint/414592
ISSN: 0027-8424
PURE UUID: 80e5da57-8020-4516-927f-9c313c2b2bb0
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Date deposited: 04 Oct 2017 16:30
Last modified: 16 Mar 2024 04:30
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Author:
Katie J. Doores
Author:
Camille Bonomelli
Author:
David J. Harvey
Author:
Snezana Vasiljevic
Author:
Raymond A. Dwek
Author:
Dennis R. Burton
Author:
Christopher N. Scanlan
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