Abstract
Hepatitis C virus (HCV) is the leading cause of chronic liver disease in humans. The envelope proteins of HCV are potential candidates for vaccine development. The absence of three-dimensional (3D) structures for the functional domain of HCV envelope proteins [E1.E2] monomer complex has hindered overall understanding of the virus infection, and also structure-based drug design initiatives. In this study, we report a 3D model containing both E1 and E2 proteins of HCV using the recently published structure of the core domain of HCV E2 and the functional part of E1, and investigate immunogenic implications of the model. HCV [E1.E2] molecule is modeled by using aa205–319 of E1 to aa421–716 of E2. Published experimental data were used to further refine the [E1.E2] model. Based on the model, we predict 77 exposed residues and several antigenic sites within the [E1.E2] that could serve as vaccine epitopes. This study identifies eight peptides which have antigenic propensity and have two or more sequentially exposed amino acids and 12 singular sites are under negative selection pressure that can serve as vaccine or therapeutic targets. Our special interest is 285FLVGQLFTFSPRRHW299 which has five negatively selected sites (L286, V287, G288, T292, and G303) with three of them sequential and four amino acids exposed (F285, L286, T292, and R296). This peptide in the E1 protein maps to dengue envelope vaccine target identified previously by our group. Our model provides for the first time an overall view of both the HCV envelope proteins thereby allowing researchers explore structure-based drug design approaches.
Highlights
Hepacivirus is an enveloped positive-sense single stranded RNA virus (+ssRNA virus) that belongs to the flaviviridae family
We focus on building a functional knowledge guided 3D model of the Hepatitis C virus (HCV) envelop [E1.E2] using the majority of the ectodomain sequences of E1 and E2 by using the published crystal structure of E2 core (PDB ID: 4MWF) and dengue virus serotype-2 envelope glycoprotein (PDB ID: 1OAN) as template for E1 and a part of E2
Initial prediction of the secondary structures of sequences for E1 and for E2 glycoproteins using the GOR4 program (Gibrat, Garnier, & Robson, 1987) reveals that around 36% of the total residues are extended/beta-strand and around 4% are alpha-helices, which is similar to the secondary structures of the corresponding sequence of Flavivirus E proteins and matches the solved HCV E2 protein structure which consists mostly of beta-strands and random coil with two small alpha-helices (Khan et al, 2014)
Summary
Hepacivirus is an enveloped positive-sense single stranded RNA virus (+ssRNA virus) that belongs to the flaviviridae family. Several experimental studies suggest that E1 and E2 are transmembrane glycoproteins bearing an N-terminal ectodomain and a C-terminal transmembrane domain. They form a multi-subunit complex at the surface of the virus particle which facilitates entry of the virus particle into the host cell, a key step involved in HCV infection (Cocquerel, Voisset, & Dubuisson, 2006; Op De Beeck, Cocquerel, & Dubuisson, 2001)
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