Global N-Glycan site occupancy of HIV-1 gp120 by metabolic engineering and high-resolution intact mass spectrometry
Global N-Glycan site occupancy of HIV-1 gp120 by metabolic engineering and high-resolution intact mass spectrometry
A vital step in HIV vaccine development strategies has been the observation that some infected individuals generate broadly neutralizing antibodies that target the glycans on the surface of HIV-1 gp120. These antibodies target glycan epitopes on viral envelope spikes, and yet the positions and degree of occupancy of glycosylation sites is diverse. Therefore, there is a need to understand glycosylation occupancy on recombinant immunogens. The sheer number of potential glycosylation sites and degree of chemical heterogeneity impedes assessing the global sequon occupancy of gp120 glycoforms. Here, we trap the glycan processing of recombinant gp120 to generate homogeneous glycoforms, facilitating occupancy assessment by intact mass spectrometry. We show that gp120 monomers of the BG505 strain contain either fully occupied sequons or missing the equivalent of one and sometimes two glycans across the molecule. This biosynthetic engineering approach enables the analysis of therapeutically important glycoproteins otherwise recalcitrant to analysis by native mass spectrometry.
357-361
Struwe, Weston B.
16a348b1-3921-4a2d-b5fb-d341fccea65f
Stuckmann, Alexandra
0693fdf5-53f1-4f3a-9011-58d45b9e688f
Behrens, Anna Janina
ed584c40-79cb-4de9-bb9c-bd68c71d6a68
Pagel, Kevin
4922aa27-38fc-45d8-9e30-eae9799b874d
Crispin, Matthew
cd980957-0943-4b89-b2b2-710f01f33bc9
17 February 2017
Struwe, Weston B.
16a348b1-3921-4a2d-b5fb-d341fccea65f
Stuckmann, Alexandra
0693fdf5-53f1-4f3a-9011-58d45b9e688f
Behrens, Anna Janina
ed584c40-79cb-4de9-bb9c-bd68c71d6a68
Pagel, Kevin
4922aa27-38fc-45d8-9e30-eae9799b874d
Crispin, Matthew
cd980957-0943-4b89-b2b2-710f01f33bc9
Struwe, Weston B., Stuckmann, Alexandra, Behrens, Anna Janina, Pagel, Kevin and Crispin, Matthew
(2017)
Global N-Glycan site occupancy of HIV-1 gp120 by metabolic engineering and high-resolution intact mass spectrometry.
ACS Chemical Biology, 12 (2), .
(doi:10.1021/acschembio.6b00854).
Abstract
A vital step in HIV vaccine development strategies has been the observation that some infected individuals generate broadly neutralizing antibodies that target the glycans on the surface of HIV-1 gp120. These antibodies target glycan epitopes on viral envelope spikes, and yet the positions and degree of occupancy of glycosylation sites is diverse. Therefore, there is a need to understand glycosylation occupancy on recombinant immunogens. The sheer number of potential glycosylation sites and degree of chemical heterogeneity impedes assessing the global sequon occupancy of gp120 glycoforms. Here, we trap the glycan processing of recombinant gp120 to generate homogeneous glycoforms, facilitating occupancy assessment by intact mass spectrometry. We show that gp120 monomers of the BG505 strain contain either fully occupied sequons or missing the equivalent of one and sometimes two glycans across the molecule. This biosynthetic engineering approach enables the analysis of therapeutically important glycoproteins otherwise recalcitrant to analysis by native mass spectrometry.
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Struwe_ACSChemBiol_2016_accepted_not proofed
- Accepted Manuscript
More information
Accepted/In Press date: 16 December 2016
e-pub ahead of print date: 16 December 2016
Published date: 17 February 2017
Identifiers
Local EPrints ID: 414431
URI: http://eprints.soton.ac.uk/id/eprint/414431
ISSN: 1554-8929
PURE UUID: e3d4dab8-9cfe-436e-8f4b-162147f544e9
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Date deposited: 28 Sep 2017 16:31
Last modified: 16 Mar 2024 05:45
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Contributors
Author:
Weston B. Struwe
Author:
Alexandra Stuckmann
Author:
Anna Janina Behrens
Author:
Kevin Pagel
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