Structural plasticity of the Semliki forest virus glycome upon interspecies transmission
Structural plasticity of the Semliki forest virus glycome upon interspecies transmission
Cross-species viral transmission subjects parent and progeny alphaviruses to differential post-translational processing of viral envelope glycoproteins. Alphavirus biogenesis has been extensively studied, and the Semliki Forest virus E1 and E2 glycoproteins have been shown to exhibit differing degrees of processing of N-linked glycans. However the composition of these glycans, including that arising from different host cells, has not been determined. Here we determined the chemical composition of the glycans from the prototypic alphavirus, Semliki Forest virus, propagated in both arthropod and rodent cell lines, by using ion-mobility mass spectrometry and collision-induced dissociation analysis. We observe that both the membrane-proximal E1 fusion glycoprotein and the protruding E2 attachment glycoprotein display heterogeneous glycosylation that contains N-linked glycans exhibiting both limited and extensive processing. However, E1 contained predominantly highly processed glycans dependent on the host cell, with rodent and mosquito-derived E1 exhibiting complex-type and paucimannose-type glycosylation, respectively. In contrast, the protruding E2 attachment glycoprotein primarily contained conserved under-processed oligomannose-type structures when produced in both rodent and mosquito cell lines. It is likely that glycan processing of E2 is structurally restricted by steric-hindrance imposed by local viral protein structure. This contrasts E1, which presents glycans characteristic of the host cell and is accessible to enzymes. We integrated our findings with previous cryo-electron microscopy and crystallographic analyses to produce a detailed model of the glycosylated mature virion surface. Taken together, these data reveal the degree to which virally encoded protein structure and cellular processing enzymes shape the virion glycome during interspecies transmission of Semliki Forest virus.
alphavirus, glycoprotein, glycosylation, structure, virus
1702-1712
Crispin, Max
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Harvey, David J.
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Bitto, David
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Bonomelli, Camille
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Edgeworth, Matthew
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Scrivens, James H.
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Huiskonen, Juha T.
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Bowden, Thomas A.
4b17a588-ac01-4112-807a-8b99a6c20d0f
7 March 2014
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Harvey, David J.
8bb24417-3852-4b1f-827b-0d5d2c176744
Bitto, David
e21f1990-512d-48b4-8945-09201788bb13
Bonomelli, Camille
51edb32c-85d0-45be-b050-b075cc3f6c28
Edgeworth, Matthew
c5c55ff2-e3a7-4237-baa2-079b0001b688
Scrivens, James H.
14c72a07-84f3-4ae9-b925-c6b594738d62
Huiskonen, Juha T.
75da2956-19f1-427c-8ae6-4b6df68f79c0
Bowden, Thomas A.
4b17a588-ac01-4112-807a-8b99a6c20d0f
Crispin, Max, Harvey, David J., Bitto, David, Bonomelli, Camille, Edgeworth, Matthew, Scrivens, James H., Huiskonen, Juha T. and Bowden, Thomas A.
(2014)
Structural plasticity of the Semliki forest virus glycome upon interspecies transmission.
Journal of Proteome Research, 13 (3), .
(doi:10.1021/pr401162k).
Abstract
Cross-species viral transmission subjects parent and progeny alphaviruses to differential post-translational processing of viral envelope glycoproteins. Alphavirus biogenesis has been extensively studied, and the Semliki Forest virus E1 and E2 glycoproteins have been shown to exhibit differing degrees of processing of N-linked glycans. However the composition of these glycans, including that arising from different host cells, has not been determined. Here we determined the chemical composition of the glycans from the prototypic alphavirus, Semliki Forest virus, propagated in both arthropod and rodent cell lines, by using ion-mobility mass spectrometry and collision-induced dissociation analysis. We observe that both the membrane-proximal E1 fusion glycoprotein and the protruding E2 attachment glycoprotein display heterogeneous glycosylation that contains N-linked glycans exhibiting both limited and extensive processing. However, E1 contained predominantly highly processed glycans dependent on the host cell, with rodent and mosquito-derived E1 exhibiting complex-type and paucimannose-type glycosylation, respectively. In contrast, the protruding E2 attachment glycoprotein primarily contained conserved under-processed oligomannose-type structures when produced in both rodent and mosquito cell lines. It is likely that glycan processing of E2 is structurally restricted by steric-hindrance imposed by local viral protein structure. This contrasts E1, which presents glycans characteristic of the host cell and is accessible to enzymes. We integrated our findings with previous cryo-electron microscopy and crystallographic analyses to produce a detailed model of the glycosylated mature virion surface. Taken together, these data reveal the degree to which virally encoded protein structure and cellular processing enzymes shape the virion glycome during interspecies transmission of Semliki Forest virus.
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e-pub ahead of print date: 28 January 2014
Published date: 7 March 2014
Keywords:
alphavirus, glycoprotein, glycosylation, structure, virus
Identifiers
Local EPrints ID: 414308
URI: http://eprints.soton.ac.uk/id/eprint/414308
ISSN: 1535-3893
PURE UUID: 29cb8ee8-d027-49dd-9c7e-679bc09dbf86
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Date deposited: 26 Sep 2017 16:30
Last modified: 06 Jun 2024 01:59
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Contributors
Author:
David J. Harvey
Author:
David Bitto
Author:
Camille Bonomelli
Author:
Matthew Edgeworth
Author:
James H. Scrivens
Author:
Juha T. Huiskonen
Author:
Thomas A. Bowden
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