Structure of a phleboviral envelope glycoprotein reveals a consolidated model of membrane fusion
Structure of a phleboviral envelope glycoprotein reveals a consolidated model of membrane fusion
An emergent viral pathogen termed severe fever with thrombocytopenia syndrome virus (SFTSV) is responsible for thousands of clinical cases and associated fatalities in China, Japan, and South Korea. Akin to other phleboviruses, SFTSV relies on a viral glycoprotein, Gc, to catalyze the merger of endosomal host and viral membranes during cell entry. Here, we describe the postfusion structure of SFTSV Gc, revealing that the molecular transformations the phleboviral Gc undergoes upon host cell entry are conserved with otherwise unrelated alpha- and flaviviruses. By comparison of SFTSV Gc with that of the prefusion structure of the related Rift Valley fever virus, we show that these changes involve refolding of the protein into a trimeric state. Reverse genetics and rescue of site-directed histidine mutants enabled localization of histidines likely to be important for triggering this pH-dependent process. These data provide structural and functional evidence that the mechanism of phlebovirus-host cell fusion is conserved among genetically and pathophysiologically distinct viral pathogens.
Bunyavirus, Emerging virus, Phlebovirus, Structure, Viral membrane fusion
7154-7159
Halldorsson, Steinar
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Behrens, Anna Janina
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Harlos, Karl
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Huiskonen, Juha T.
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Elliott, Richard M.
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Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Brennan, Benjamin
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Bowden, Thomas A.
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28 June 2016
Halldorsson, Steinar
7bf94dad-782a-4f02-907c-06361efb2230
Behrens, Anna Janina
ed584c40-79cb-4de9-bb9c-bd68c71d6a68
Harlos, Karl
b5f7d1ec-d765-4d39-b8f2-65c6917f1d21
Huiskonen, Juha T.
75da2956-19f1-427c-8ae6-4b6df68f79c0
Elliott, Richard M.
41606609-281f-4c7d-bbfd-4a285a019af7
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Brennan, Benjamin
27d032d0-054b-48d1-8f84-82a923f14baa
Bowden, Thomas A.
4b17a588-ac01-4112-807a-8b99a6c20d0f
Halldorsson, Steinar, Behrens, Anna Janina, Harlos, Karl, Huiskonen, Juha T., Elliott, Richard M., Crispin, Max, Brennan, Benjamin and Bowden, Thomas A.
(2016)
Structure of a phleboviral envelope glycoprotein reveals a consolidated model of membrane fusion.
Proceedings of the National Academy of Sciences of the United States of America, 113 (26), .
(doi:10.1073/pnas.1603827113).
Abstract
An emergent viral pathogen termed severe fever with thrombocytopenia syndrome virus (SFTSV) is responsible for thousands of clinical cases and associated fatalities in China, Japan, and South Korea. Akin to other phleboviruses, SFTSV relies on a viral glycoprotein, Gc, to catalyze the merger of endosomal host and viral membranes during cell entry. Here, we describe the postfusion structure of SFTSV Gc, revealing that the molecular transformations the phleboviral Gc undergoes upon host cell entry are conserved with otherwise unrelated alpha- and flaviviruses. By comparison of SFTSV Gc with that of the prefusion structure of the related Rift Valley fever virus, we show that these changes involve refolding of the protein into a trimeric state. Reverse genetics and rescue of site-directed histidine mutants enabled localization of histidines likely to be important for triggering this pH-dependent process. These data provide structural and functional evidence that the mechanism of phlebovirus-host cell fusion is conserved among genetically and pathophysiologically distinct viral pathogens.
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Accepted/In Press date: 17 May 2016
e-pub ahead of print date: 20 June 2016
Published date: 28 June 2016
Keywords:
Bunyavirus, Emerging virus, Phlebovirus, Structure, Viral membrane fusion
Identifiers
Local EPrints ID: 414332
URI: http://eprints.soton.ac.uk/id/eprint/414332
ISSN: 0027-8424
PURE UUID: 2b4b8f04-09e0-457d-a093-dcc019eb2f3a
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Date deposited: 26 Sep 2017 16:30
Last modified: 16 Mar 2024 04:30
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Contributors
Author:
Steinar Halldorsson
Author:
Anna Janina Behrens
Author:
Karl Harlos
Author:
Juha T. Huiskonen
Author:
Richard M. Elliott
Author:
Benjamin Brennan
Author:
Thomas A. Bowden
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