Cell entry by enveloped viruses: redox considerations for HIV and SARS-coronavirus.
Identifieur interne : 000028 ( Hal/Corpus ); précédent : 000027; suivant : 000029Cell entry by enveloped viruses: redox considerations for HIV and SARS-coronavirus.
Auteurs : Emmanuel Fenouillet ; Rym Barbouche ; Ian M. JonesSource :
- Antioxidants and Redox Signaling [ 1523-0864 ] ; 2007-08.
Abstract
For enveloped viruses, genome entry into the target cell involves two major steps: virion binding to the cell-surface receptor and fusion of the virion and cell membranes. Virus-cell membrane fusion is mediated by the virus envelope complex, and its fusogenicity is the result of an active virus-cell interaction process that induces conformation changes within the envelope. For some viruses, such as influenza, exposure to an acidic milieu within the cell during the early steps of infection triggers the necessary structural changes. However, for other pathogens which are not exposed to such environmental stress, activation of fusogenicity can result from precise thiol/disulfide rearrangements mediated by either an endogenous redox autocatalytic isomerase or a cell-associated oxidoreductase. Study of the activation of HIV envelope fusogenicity has revealed new knowledge about how redox changes within a viral envelope trigger fusion. We discuss these findings and their implication for anti-HIV therapy. In addition, to compare and contrast the situation outlined for HIV with an enveloped virus that can fuse with the cell plasma membrane independent of the redox status of its envelope protein, we review parallel data obtained on SARS coronavirus entry.
Url:
DOI: 10.1089/ars.2007.1639
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Jones</name><affiliation><hal:affiliation type="laboratory" xml:id="struct-87301" status="VALID"> <orgName>School of Biological Sciences [Reading]</orgName> <desc> <address> <addrLine>The University of Reading Whiteknights, Reading RG6 6AS, UK</addrLine> <country key="GB"></country> </address> <ref type="url">http://www.reading.ac.uk/biologicalsciences/</ref> </desc> <listRelation> <relation active="#struct-47262" type="direct"></relation> </listRelation> <tutelles><tutelle active="#struct-47262" type="direct"><org type="institution" xml:id="struct-47262" status="VALID"> <orgName>University of Reading</orgName> <orgName type="acronym">UOR</orgName> <desc> <address> <addrLine>Whiteknights, PO Box 217, READING, Berkshire, RG6 6AH,</addrLine> <country key="GB"></country> </address> <ref type="url">http://www.rdg.ac.uk/</ref> </desc> </org></tutelle></tutelles></hal:affiliation></affiliation></author></analytic><idno type="DOI">10.1089/ars.2007.1639</idno><series><title level="j">Antioxidants and Redox Signaling</title><idno type="ISSN">1523-0864</idno><imprint><date type="datePub">2007-08</date></imprint></series></biblStruct></sourceDesc></fileDesc><profileDesc><textClass></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en"> <p>For enveloped viruses, genome entry into the target cell involves two major steps: virion binding to the cell-surface receptor and fusion of the virion and cell membranes. Virus-cell membrane fusion is mediated by the virus envelope complex, and its fusogenicity is the result of an active virus-cell interaction process that induces conformation changes within the envelope. For some viruses, such as influenza, exposure to an acidic milieu within the cell during the early steps of infection triggers the necessary structural changes. However, for other pathogens which are not exposed to such environmental stress, activation of fusogenicity can result from precise thiol/disulfide rearrangements mediated by either an endogenous redox autocatalytic isomerase or a cell-associated oxidoreductase. Study of the activation of HIV envelope fusogenicity has revealed new knowledge about how redox changes within a viral envelope trigger fusion. We discuss these findings and their implication for anti-HIV therapy. In addition, to compare and contrast the situation outlined for HIV with an enveloped virus that can fuse with the cell plasma membrane independent of the redox status of its envelope protein, we review parallel data obtained on SARS coronavirus entry.</p> </div></front></TEI><hal api="V3"> <titleStmt> <title xml:lang="en">Cell entry by enveloped viruses: redox considerations for HIV and SARS-coronavirus.</title> <author role="aut"> <persName> <forename type="first">Emmanuel</forename> <surname>Fenouillet</surname> </persName> <idno type="halauthorid">168530</idno> <affiliation ref="#struct-874"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Rym</forename> <surname>Barbouche</surname> </persName> <idno type="halauthorid">168557</idno> <affiliation ref="#struct-874"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Ian M</forename> <surname>Jones</surname> </persName> <idno type="halauthorid">168559</idno> <affiliation ref="#struct-87301"></affiliation> </author> <editor role="depositor"> <persName> <forename>Michel</forename> <surname>Khrestchatisky</surname> </persName> <email type="md5">577207199f7f698b37b33704c8a696a9</email> <email type="domain">univ-amu.fr</email> </editor> </titleStmt> <editionStmt> <edition n="v1" type="current"> <date type="whenSubmitted">2008-09-09 15:46:40</date> <date type="whenModified">2019-12-16 11:28:21</date> <date type="whenReleased">2008-09-09 15:46:40</date> <date type="whenProduced">2007-08</date> </edition> <respStmt> <resp>contributor</resp> <name key="500202"> <persName> <forename>Michel</forename> <surname>Khrestchatisky</surname> </persName> <email type="md5">577207199f7f698b37b33704c8a696a9</email> <email type="domain">univ-amu.fr</email> </name> </respStmt> </editionStmt> <publicationStmt> <distributor>CCSD</distributor> <idno type="halId">hal-00319879</idno> <idno type="halUri">https://hal.archives-ouvertes.fr/hal-00319879</idno> <idno type="halBibtex">fenouillet:hal-00319879</idno> <idno type="halRefHtml">Antioxidants and Redox Signaling, Mary Ann Liebert, 2007, 9 (8), pp.1009-34. ⟨10.1089/ars.2007.1639⟩</idno> <idno type="halRef">Antioxidants and Redox Signaling, Mary Ann Liebert, 2007, 9 (8), pp.1009-34. ⟨10.1089/ars.2007.1639⟩</idno> </publicationStmt> <seriesStmt> <idno type="stamp" n="CNRS">CNRS - Centre national de la recherche scientifique</idno> <idno type="stamp" n="UNIV-AMU">Aix Marseille Université</idno> <idno type="stamp" n="TEST-AMU">Espace de test AMU</idno> <idno type="stamp" n="INP">Institut de Neurophysiopathologie</idno> </seriesStmt> <notesStmt> <note type="audience" n="1">Not set</note> <note type="popular" n="0">No</note> <note type="peer" n="1">Yes</note> </notesStmt> <sourceDesc> <biblStruct> <analytic> <title xml:lang="en">Cell entry by enveloped viruses: redox considerations for HIV and SARS-coronavirus.</title> <author role="aut"> <persName> <forename type="first">Emmanuel</forename> <surname>Fenouillet</surname> </persName> <idno type="halauthorid">168530</idno> <affiliation ref="#struct-874"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Rym</forename> <surname>Barbouche</surname> </persName> <idno type="halauthorid">168557</idno> <affiliation ref="#struct-874"></affiliation> </author> <author role="aut"> <persName> <forename type="first">Ian M</forename> <surname>Jones</surname> </persName> <idno type="halauthorid">168559</idno> <affiliation ref="#struct-87301"></affiliation> </author> </analytic> <monogr> <idno type="halJournalId" status="VALID">10569</idno> <idno type="issn">1523-0864</idno> <title level="j">Antioxidants and Redox Signaling</title> <imprint> <publisher>Mary Ann Liebert</publisher> <biblScope unit="volume">9</biblScope> <biblScope unit="issue">8</biblScope> <biblScope unit="pp">1009-34</biblScope> <date type="datePub">2007-08</date> </imprint> </monogr> <idno type="doi">10.1089/ars.2007.1639</idno> <idno type="pubmed">17567241</idno> </biblStruct> </sourceDesc> <profileDesc> <langUsage> <language ident="en">English</language> </langUsage> <textClass> <classCode scheme="mesh">Amino Acid Sequence</classCode> <classCode scheme="mesh">Models, Biological</classCode> <classCode scheme="mesh">Molecular Sequence Data</classCode> <classCode scheme="mesh">Oxidation-Reduction</classCode> <classCode scheme="mesh">Protein Structure, Tertiary</classCode> <classCode scheme="mesh">SARS Virus</classCode> <classCode scheme="mesh">Amino Acid Motifs</classCode> <classCode scheme="mesh">Animals</classCode> <classCode scheme="mesh">Antigens, CD4</classCode> <classCode scheme="mesh">Disulfides</classCode> <classCode scheme="mesh">HIV</classCode> <classCode scheme="mesh">HIV Envelope Protein gp120</classCode> <classCode scheme="mesh">HIV Envelope Protein gp41</classCode> <classCode scheme="mesh">HIV Infections</classCode> <classCode scheme="mesh">Humans</classCode> <classCode scheme="halDomain" n="sdv.neu">Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]</classCode> <classCode scheme="halTypology" n="ART">Journal articles</classCode> </textClass> <abstract xml:lang="en"> <p>For enveloped viruses, genome entry into the target cell involves two major steps: virion binding to the cell-surface receptor and fusion of the virion and cell membranes. Virus-cell membrane fusion is mediated by the virus envelope complex, and its fusogenicity is the result of an active virus-cell interaction process that induces conformation changes within the envelope. For some viruses, such as influenza, exposure to an acidic milieu within the cell during the early steps of infection triggers the necessary structural changes. However, for other pathogens which are not exposed to such environmental stress, activation of fusogenicity can result from precise thiol/disulfide rearrangements mediated by either an endogenous redox autocatalytic isomerase or a cell-associated oxidoreductase. Study of the activation of HIV envelope fusogenicity has revealed new knowledge about how redox changes within a viral envelope trigger fusion. We discuss these findings and their implication for anti-HIV therapy. In addition, to compare and contrast the situation outlined for HIV with an enveloped virus that can fuse with the cell plasma membrane independent of the redox status of its envelope protein, we review parallel data obtained on SARS coronavirus entry.</p> </abstract> </profileDesc> </hal></record>Pour manipuler ce document sous Unix (Dilib)
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