tetherin inhibits hiv-1 release by directly tethering virions to cells david perez– caballero,...
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Tetherin inhibits HIV-1 release by directly tethering virions to cells
David Perez– Caballero, Trinity Zang, Alaleh Ebrahimi, Matthew W.McNatt, Devon A.Gregory, Marc C.Johnson, and Paul D. Bieniasz
The Rockefeller University, New York, NY 10016, USA 3Howard Hughes Medical Institute, Aaron Diamond AIDS Research Center, New York, NY 10016, USA 4Department of Molecular Microbiology
and Immunology, University of Missouri School of Medicine, Columbia, MO 65211, USA
ZIB
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HIV
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Basic information
Human cells possess different restriction factors that inhibit the release of many retroviruses and other enveloped virus particles.
To counter such inhibition, HIV and other viruses produce certain proteins that neutralize these restriction factors.
HIV – Vpu (Viral protein U)
required for efficient release of virions .
In the absence of Vpu, fully matured virions are unable to bud out and are tethered to the plasma membrane which are later endocytosed by the cell (Neil et al,2006).
Tethered virions can be released by proteases like subtilisin- surface protein.
IFNα also induces tethering which can be counteracted by Vpu (Neil et al,2007).
Microarray analyses – CD317 membrane protein- TETHERIN
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TypeII Single pass dimeric transmembrane protein, encoding a transmembrane domain at its N-terminus, and GPI anchor at C-terminus.
Membrane anchors are linked by an extracellular coiled coil domain.
Two N-Glycosylation sites : N65 and N92
Three Cystein disulphide bonds : C53, C63 and C91
Structural features of tetherin
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Transient and stable expression of N-glycosylation mutants
Treatment with peptide N glycosidase F
Stable transfection of 293T using LHCX retroviral vectors
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Modification of tetherin by addition of GPI anchor
Co-transfection of GFP expression plasmid
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Dimer formation by cysteine mutants excepting the triple mutant
Tetherin has same configuration as it is schematically represented.
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Determination of anti- viral activity of tetherin mutants
Dystrophia myotonica protein kinase Urokinase plasminogen activator receptor
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Construction of an artificial tetherin like protein mimicking tetherin activity
The loss in activity of tetherin could be rescued by replacing similar domains from unrelated heterologous proteins having no sequence homology.
TfR : transferrin receptorDMPK: Dystrophia myotonica protein kinaseuPAR: urokinase plasminogen activator receptor
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Determination of anti-viral activity of artificial tetherin
Pr55 gag precursorp24 mature capsid protein
Vpu does not have an effect on artifial tetherin
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Anti- viral activity of artificial tetherin mutants
Infectivity assay
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Subtilisin treatment could release the trapped virions (Neil et al 2006).
Anti- viral activity of artificial tetherin mutants
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Anti- viral activity of artificial tetherin mutants
Since artificial tetherin having no sequence homology with native tetherin but could mimic its antiviral activity, its likely that tetherin functions by directly tethering virions.
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TEM analysis of HT1080 stably expressing tetherin-HA and infected with HIV-1(del vpu).
Incorporation of tetherin into virion particles
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Incorporation of tetherin mutants into HIV1 particles.
Suggestes that tetherin does get incorporated with either of its membrane anchors.
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Configuration of tetherin in virions
Suggestes tetherin gets incorporated into virions using its N-terminus as a parallel homodimer.
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Effect of Vpu on virions derived from HIV-1(wt) and HIV-1(del Vpu)
Vpu excludes tetherin from virons by targeting its transembrane domain
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Tetherin associated with budding virions
Virions that are in the act,but have have not completed budding was generated by expressing HIV Gag with a mutation in the PTAP L domain
Analysed by conducting scanning electron microscope and backscatter electron detection
Disadvantage of not able to observe tetherin-dependent tethering events
Advantage that interaction between tetherin deletion mutants and budding particles could be observed
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Models for Tetherin Incorporation
Model 1- the TM domains of a tetherin dimer are incorporated into the virion envelope and the GPI anchors remain embedded in the host-cell membrane.
Model 2- the reverse situation occurs.
Model 3-only one of a pair of disulfide-linked tetherin molecules has both membrane anchors incorporated into the virion envelope.
Model 4- one disulfide linked tetherin dimer incorporated into the virion envelope interacts with another dimer in the host-cell membrane via coiled-coil-based interactions
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To summarize ….
N and C-terminal anchors are responsible for tetherin activity.
The overall configuration of tetherin rather than primary sequence is critical for anti-viral activity.
Tetherin does get incorporated into HIV-1 particles as a parallel homodimer using either of its two membrane anchors.
Tetherin functions directly by attaching to virion envelopes by either of its membrane anchors and is likely sufficient to tether enveloped virus particles that bud through the plasma membrane.
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Localisation of tetherin in ER
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Expression of artificial tetherin
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Opti prep to show incorporation of tetherin in virions.
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Surface expression of tetherin proteins
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Secretion of tPA tetherin derived protein lacking both membrane anchors is dependent on glycosylation sites
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Surface expression of wild type and artificial tetherin proteins
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Inhibition of Ebola VLP release by artificial tetherin
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Incorporation of inactive and partly active tetherin mutants into HIV virions.
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Expression and release of gag