Laura Lombana scite author profile

We have used an isolated chimeric protein E1 340 E2 661 that includes the ectodomains of the envelope proteins of hepatitis C virus to study its interaction with model membranes. E1 340 E2 661 has some of the membrane destabilization properties, vesicle aggregation, lipid mixing and the release of internal aqueous content, which have previously been ascribed to fusion proteins. The effects are preferentially produced on vesicles of acidic phospholipids which would indicate the importance of the electrostatic interactions. In fact, an increase of the ionic strength of the buffer induced a considerable decrease of the destabilizing properties. Moreover, fluorescence polarization studies show that the recombinant protein reduces the amplitude of the thermal transition of dimyristoylphosphatidylglycerol vesicles and increases the transition temperature at pH 5.0 in a dose-dependent manner, indicating its insertion into the bilayer. Furthermore, a decrease of the pH induces a conformational change in the protein structure as evidenced by fluorescence of tryptophan residues and 4,4 0 -bis(1-anilinonaphthalene-8-sulfonate). A model for the fusion of hepatitis C virus with the host cell membrane can be postulated. The dissociation of E1E2 dimers would uncover the fusion peptides which can then interact with the polar lipid heads of the outer leaflet of the lipid bilayer and next insert into the hydrophobic moiety producing the destabilization of the bilayer which finally leads to fusion.

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The deletion of residues 268-292 of E1 impairs the ability of HCV envelope proteins to induce pore formation

Lombana

Ortega-Atienza

Gómez-Gutiérrez

et al. 2016

Virus Research

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The deletion of residues 268-292 of E1 impairs the ability of HCV envelope proteins to induce pore formation.Virus Research http://dx.doi.org/10. 1016/j.virusres.2016.02.009 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.

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Production and characterization of the ectodomain of E2 envelope glycoprotein of hepatitis C virus folded in the presence of full-length E1 glycoprotein

Ortega-Atienza

Lombana

Gómez-Gutiérrez

et al. 2014

Protein Expression and Purification

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Hepatitis C virus (HCV) envelope glycoproteins, E1 and E2, are involved in the first steps of virus infection. The E2 ectodomain can be produced as an isolated form (E2 661 ). However, there is some concern about its proper conformation and the role that E1 can play as a chaperone for the folding of E2. In order to verify this fact we have expressed a chimeric protein (E1tmbE2) based on the fulllength E1 sequence followed by the E2 ectodomain using the baculovirus-insect cells system. The E2 ectodomain is folded in the presence of the E1, proteolytically processed by cellular proteases and secreted to cell culture media (E2 661 p), while the E1 protein is retained into the cell due to its transmembrane sequence. The purification of E2 661 p from culture media was facilitated by a His tag introduced in its amino terminus. Both E2 661 and E2 661 p glycoproteins shared very similar structural features, monitored by spectroscopic and antigenic studies. Moreover, their functional properties, tested by means of CD81 binding, were almost indistinguishable, indicating that the E2 ectodomain constitutes an independent folding unit.

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Laura Lombana

Fusogenic properties of the ectodomains of hepatitis C virus envelope proteins

The deletion of residues 268-292 of E1 impairs the ability of HCV envelope proteins to induce pore formation

Production and characterization of the ectodomain of E2 envelope glycoprotein of hepatitis C virus folded in the presence of full-length E1 glycoprotein

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