Tectonic conformational changes of a coronavirus spike glycoprotein promote membrane fusion
Identifieur interne : 000574 ( Hal/Corpus ); précédent : 000573; suivant : 000575Tectonic conformational changes of a coronavirus spike glycoprotein promote membrane fusion
Auteurs : Alexandra Walls ; M. Alejandra Tortorici ; Joost Snijder ; Xiaoli Xiong ; Berend-Jan Bosch ; Félix A. Rey ; David VeeslerSource :
- Proceedings of the National Academy of Sciences of the United States of America [ 0027-8424 ] ; 2017-10-17.
English descriptors
Abstract
The tremendous pandemic potential of coronaviruses was demonstrated twice in the past few decades by two global outbreaks of deadly pneumonia. The coronavirus spike (S) glycoprotein initiates infection by promoting fusion of the viral and cellular membranes through conformational changes that remain largely uncharacterized. Here we report the cryoEM structure of a coronavirus S glycoprotein in the postfusion state, showing large-scale secondary, tertiary, and quaternary rearrangements compared with the prefusion trimer and rationalizing the free-energy landscape of this conformational machine. We also biochemically characterized the molecular events associated with refolding of the metastable prefusion S glycoprotein to the postfusion conformation using limited proteolysis, mass spectrometry, and single-particle EM. The observed similarity between postfusion coronavirus S and paramyxovirus F structures demonstrates that a conserved refolding trajectory mediates entry of these viruses and supports the evolutionary relatedness of their fusion subunits. Finally, our data provide a structural framework for understanding the mode of neutralization of antibodies targeting the fusion machinery and for engineering next-generation subunit vaccines or inhibitors against this medically important virus family.
Url:
DOI: 10.1073/pnas.1708727114
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Hal:pasteur-01664354Le document en format XML
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Rey</name><affiliation><hal:affiliation type="laboratory" xml:id="struct-232693" status="VALID"> <orgName>Virologie Structurale</orgName> <desc> <address> <addrLine>Département de Virologie - 25-28, rue du docteur Roux 75724 Paris cedex 15</addrLine> <country key="FR"></country> </address> <ref type="url">https://research.pasteur.fr/fr/team/structural-virology/</ref> </desc> <listRelation> <relation active="#struct-300027" type="direct"></relation> <relation name="UMR3569" active="#struct-441569" type="direct"></relation> </listRelation> <tutelles><tutelle active="#struct-300027" type="direct"><org type="institution" xml:id="struct-300027" status="VALID"> <idno type="IdRef">027936643</idno> <idno type="ISNI">0000 0001 2353 6535</idno> <orgName>Institut Pasteur [Paris]</orgName> <date type="start">1887-06-04</date> <desc> <address> <addrLine>25-28, rue du docteur Roux, 75724 Paris cedex 15</addrLine> <country key="FR"></country> </address> <ref type="url">https://www.pasteur.fr</ref> </desc> </org></tutelle><tutelle name="UMR3569" active="#struct-441569" type="direct"><org type="institution" xml:id="struct-441569" status="VALID"> <idno type="IdRef">02636817X</idno> <idno type="ISNI">0000000122597504</idno> <orgName>Centre National de la Recherche Scientifique</orgName> <orgName type="acronym">CNRS</orgName> <date type="start">1939-10-19</date> <desc> <address> <country key="FR"></country> </address> <ref type="url">http://www.cnrs.fr/</ref> </desc> </org></tutelle></tutelles></hal:affiliation></affiliation></author><author><name sortKey="Veesler, David" sort="Veesler, David" uniqKey="Veesler D" first="David" last="Veesler">David Veesler</name><affiliation><hal:affiliation type="laboratory" xml:id="struct-101259" status="VALID"> <orgName>Department of Biochemistry [Washington ]</orgName> <desc> <address> <addrLine>Campus Box 351700 Seattle, Washington 98195</addrLine> <country key="US"></country> </address> <ref type="url">http://depts.washington.edu/biowww/</ref> </desc> <listRelation> <relation active="#struct-300433" type="direct"></relation> </listRelation> <tutelles><tutelle active="#struct-300433" type="direct"><org type="institution" xml:id="struct-300433" status="VALID"> <orgName>University of Washington [Seattle]</orgName> <desc> <address> <addrLine>Seattle, Washington 98105</addrLine> <country key="US"></country> </address> <ref type="url">http://www.washington.edu/</ref> </desc> </org></tutelle></tutelles></hal:affiliation></affiliation></author></analytic><idno type="DOI">10.1073/pnas.1708727114</idno><series><title level="j">Proceedings of the National Academy of Sciences of the United States of America </title><idno type="ISSN">0027-8424</idno><imprint><date type="datePub">2017-10-17</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass><keywords scheme="mix" xml:lang="en"><term>coronavirus</term><term>cryoEM</term><term>fusion proteins</term><term>membrane fusion</term><term>proteolytic activation</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en"> <p>The tremendous pandemic potential of coronaviruses was demonstrated twice in the past few decades by two global outbreaks of deadly pneumonia. The coronavirus spike (S) glycoprotein initiates infection by promoting fusion of the viral and cellular membranes through conformational changes that remain largely uncharacterized. Here we report the cryoEM structure of a coronavirus S glycoprotein in the postfusion state, showing large-scale secondary, tertiary, and quaternary rearrangements compared with the prefusion trimer and rationalizing the free-energy landscape of this conformational machine. We also biochemically characterized the molecular events associated with refolding of the metastable prefusion S glycoprotein to the postfusion conformation using limited proteolysis, mass spectrometry, and single-particle EM. The observed similarity between postfusion coronavirus S and paramyxovirus F structures demonstrates that a conserved refolding trajectory mediates entry of these viruses and supports the evolutionary relatedness of their fusion subunits. Finally, our data provide a structural framework for understanding the mode of neutralization of antibodies targeting the fusion machinery and for engineering next-generation subunit vaccines or inhibitors against this medically important virus family.</p> </div></front></TEI><hal api="V3"> <titleStmt> <title xml:lang="en">Tectonic conformational changes of a coronavirus spike glycoprotein promote membrane fusion</title> <author role="aut"> <persName> <forename type="first">Alexandra</forename> <surname>Walls</surname> </persName> <idno type="halauthorid">1699541</idno> <affiliation ref="#struct-101259"></affiliation> </author> <author role="aut"> <persName> <forename type="first">M. Alejandra</forename> <surname>Tortorici</surname> </persName> <email type="md5">11e6d44f23b73947615ccf6cfa01505b</email> <email type="domain">pasteur.fr</email> <idno type="idhal" notation="string">m-alejandra-tortorici</idno> <idno type="idhal" notation="numeric">170125</idno> <idno type="halauthorid">1409335</idno> <idno type="ORCID">https://orcid.org/0000-0002-2260-2577</idno> <affiliation ref="#struct-232693"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Joost</forename> <surname>Snijder</surname> </persName> <idno type="halauthorid">1699545</idno> <affiliation ref="#struct-101259"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Xiaoli</forename> <surname>Xiong</surname> </persName> <idno type="halauthorid">1699552</idno> <affiliation ref="#struct-101259"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Berend-Jan</forename> <surname>Bosch</surname> </persName> <idno type="halauthorid">1699542</idno> <affiliation ref="#struct-300572"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Félix A.</forename> <surname>Rey</surname> </persName> <email type="md5">6b02472e652ac98383b25b6666310ddd</email> <email type="domain">pasteur.fr</email> <idno type="halauthorid">404280</idno> <affiliation ref="#struct-232693"></affiliation> </author> <author role="crp"> <persName> <forename type="first">David</forename> <surname>Veesler</surname> </persName> <email type="md5">a69250bae7cd738d65dbee08ff3c8649</email> <email type="domain">uw.edu</email> <idno type="halauthorid">1669645</idno> <affiliation ref="#struct-101259"></affiliation> </author> <editor role="depositor"> <persName> <forename>M. Alejandra</forename> <surname>Tortorici</surname> </persName> <email type="md5">11e6d44f23b73947615ccf6cfa01505b</email> <email type="domain">pasteur.fr</email> </editor> <funder>This work was supported by the National Institute of General Medical Sciences Grants 1R01GM120553 (to D.V.) and T32GM008268 (to A.C.W.); a Pew Scholars Award (to D.V.); Netherlands Organization for Scientific Research Award Rubicon 019.2015.2.310.006 (to J.S.); European Molecular Biology Organization Grant ALTF 933-2015 (to J.S.); the Pasteur Institute (F.A.R.); National Institute of Health Grants 1S10RR23057, 1S10OD018111, and 1U24GM116792, as well as National Science Foundation Grant DBI-1338135 (to the Electron Imaging Center of the California NanoSystems Institute at the University of California, Los Angeles); and University of Washington’s Proteomics Resource Grant UWPR95794. </funder> </titleStmt> <editionStmt> <edition n="v1" type="current"> <date type="whenSubmitted">2017-12-14 17:29:52</date> <date type="whenModified">2020-01-13 17:08:16</date> <date type="whenReleased">2017-12-15 11:40:02</date> <date type="whenProduced">2017-10-17</date> <ref type="externalLink" target="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5651768/pdf"></ref> </edition> <respStmt> <resp>contributor</resp> <name key="579479"> <persName> <forename>M. Alejandra</forename> <surname>Tortorici</surname> </persName> <email type="md5">11e6d44f23b73947615ccf6cfa01505b</email> <email type="domain">pasteur.fr</email> </name> </respStmt> </editionStmt> <publicationStmt> <distributor>CCSD</distributor> <idno type="halId">pasteur-01664354</idno> <idno type="halUri">https://hal-pasteur.archives-ouvertes.fr/pasteur-01664354</idno> <idno type="halBibtex">walls:pasteur-01664354</idno> <idno type="halRefHtml">Proceedings of the National Academy of Sciences of the United States of America , National Academy of Sciences, 2017, 114 (42), pp.11157 - 11162. ⟨10.1073/pnas.1708727114⟩</idno> <idno type="halRef">Proceedings of the National Academy of Sciences of the United States of America , National Academy of Sciences, 2017, 114 (42), pp.11157 - 11162. ⟨10.1073/pnas.1708727114⟩</idno> </publicationStmt> <seriesStmt> <idno type="stamp" n="PASTEUR">Institut Pasteur</idno> <idno type="stamp" n="CNRS">CNRS - Centre national de la recherche scientifique</idno> </seriesStmt> <notesStmt> <note type="audience" n="2">International</note> <note type="popular" n="0">No</note> <note type="peer" n="1">Yes</note> </notesStmt> <sourceDesc> <biblStruct> <analytic> <title xml:lang="en">Tectonic conformational changes of a coronavirus spike glycoprotein promote membrane fusion</title> <author role="aut"> <persName> <forename type="first">Alexandra</forename> <surname>Walls</surname> </persName> <idno type="halauthorid">1699541</idno> <affiliation ref="#struct-101259"></affiliation> </author> <author role="aut"> <persName> <forename type="first">M. Alejandra</forename> <surname>Tortorici</surname> </persName> <email type="md5">11e6d44f23b73947615ccf6cfa01505b</email> <email type="domain">pasteur.fr</email> <idno type="idhal" notation="string">m-alejandra-tortorici</idno> <idno type="idhal" notation="numeric">170125</idno> <idno type="halauthorid">1409335</idno> <idno type="ORCID">https://orcid.org/0000-0002-2260-2577</idno> <affiliation ref="#struct-232693"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Joost</forename> <surname>Snijder</surname> </persName> <idno type="halauthorid">1699545</idno> <affiliation ref="#struct-101259"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Xiaoli</forename> <surname>Xiong</surname> </persName> <idno type="halauthorid">1699552</idno> <affiliation ref="#struct-101259"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Berend-Jan</forename> <surname>Bosch</surname> </persName> <idno type="halauthorid">1699542</idno> <affiliation ref="#struct-300572"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Félix A.</forename> <surname>Rey</surname> </persName> <email type="md5">6b02472e652ac98383b25b6666310ddd</email> <email type="domain">pasteur.fr</email> <idno type="halauthorid">404280</idno> <affiliation ref="#struct-232693"></affiliation> </author> <author role="crp"> <persName> <forename type="first">David</forename> <surname>Veesler</surname> </persName> <email type="md5">a69250bae7cd738d65dbee08ff3c8649</email> <email type="domain">uw.edu</email> <idno type="halauthorid">1669645</idno> <affiliation ref="#struct-101259"></affiliation> </author> </analytic> <monogr> <idno type="halJournalId" status="VALID">7969</idno> <idno type="issn">0027-8424</idno> <idno type="eissn">1091-6490</idno> <title level="j">Proceedings of the National Academy of Sciences of the United States of America </title> <imprint> <publisher>National Academy of Sciences</publisher> <biblScope unit="volume">114</biblScope> <biblScope unit="issue">42</biblScope> <biblScope unit="pp">11157 - 11162</biblScope> <date type="datePub">2017-10-17</date> </imprint> </monogr> <idno type="doi">10.1073/pnas.1708727114</idno> <idno type="pubmed">29073020</idno> <idno type="pubmedcentral">PMC5651768</idno> </biblStruct> </sourceDesc> <profileDesc> <langUsage> <language ident="en">English</language> </langUsage> <textClass> <keywords scheme="author"> <term xml:lang="en">coronavirus</term> <term xml:lang="en">cryoEM</term> <term xml:lang="en">fusion proteins</term> <term xml:lang="en">membrane fusion</term> <term xml:lang="en">proteolytic activation</term> </keywords> <classCode scheme="halDomain" n="chim.cris">Chemical Sciences/Cristallography</classCode> <classCode scheme="halDomain" n="sdv">Life Sciences [q-bio]</classCode> <classCode scheme="halDomain" n="sdv.bbm">Life Sciences [q-bio]/Biochemistry, Molecular Biology</classCode> <classCode scheme="halDomain" n="sdv.bbm.bc">Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biomolecules [q-bio.BM]</classCode> <classCode scheme="halTypology" n="ART">Journal articles</classCode> </textClass> <abstract xml:lang="en"> <p>The tremendous pandemic potential of coronaviruses was demonstrated twice in the past few decades by two global outbreaks of deadly pneumonia. The coronavirus spike (S) glycoprotein initiates infection by promoting fusion of the viral and cellular membranes through conformational changes that remain largely uncharacterized. Here we report the cryoEM structure of a coronavirus S glycoprotein in the postfusion state, showing large-scale secondary, tertiary, and quaternary rearrangements compared with the prefusion trimer and rationalizing the free-energy landscape of this conformational machine. We also biochemically characterized the molecular events associated with refolding of the metastable prefusion S glycoprotein to the postfusion conformation using limited proteolysis, mass spectrometry, and single-particle EM. The observed similarity between postfusion coronavirus S and paramyxovirus F structures demonstrates that a conserved refolding trajectory mediates entry of these viruses and supports the evolutionary relatedness of their fusion subunits. Finally, our data provide a structural framework for understanding the mode of neutralization of antibodies targeting the fusion machinery and for engineering next-generation subunit vaccines or inhibitors against this medically important virus family.</p> </abstract> </profileDesc> </hal></record>Pour manipuler ce document sous Unix (Dilib)
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