Longitudinal Sequence and Functional Evolution within Glycoprotein E2 in Hepatitis C Virus Genotype 3a Infection.

Yousef M O Alhammad,Peter A White,Sanvir Maharajh,Pantelis Poumbourios,John-Sebastian Eden,Heidi E Drummer,Rebecca Butcher,Naglaa H Shoukry

doi:10.1371/journal.pone.0126397

Abstract

The E2 glycoprotein of Hepatitis C virus (HCV) is a major target of the neutralizing antibody (NAb) response with the majority of epitopes located within its receptor binding domain (RBD; 384–661). Within E2 are three variable regions located at the N-terminus (HVR1; 384–411), and internally at 460–480 (HVR2) and 570–580 [intergenotypic variable region (igVR)], all of which lie outside a conserved core domain that contains the CD81 binding site, essential for attachment of virions to host cells and a major target of NAbs. In this study, we examined the evolution of the E1 and E2 region in two patients infected with genotype 3a virus. Whereas one patient was able to clear the acute infection, the other developed a chronic infection. Mutations accumulated at multiple positions within the N-terminal HVR1 as well as within the igVR in both patients over time, whereas mutations in HVR2 were observed only in the chronically infected patient. Mutations within or adjacent to the CD81 contact site were observed in both patients but were less frequent and more conservative in the patient that cleared his/her infection. The evolution of CD81 binding function and antigenicity was examined with longitudinal E2 RBD sequences. The ability of the RBD to bind CD81 was completely lost by week 108 in the patient that developed chronic HCV. In the second patient, the ability of the week 36 RBD, just prior to viral clearance, to bind CD81 was reduced ~50% relative to RBD sequences obtained earlier. The binding of a NAb specific to a conserved epitope located within E2 residues 411–428 was significantly reduced by week 108 despite complete conservation of its epitope suggesting that E2 antigenicity is allosterically modulated. The exposure of non-neutralizing antibody epitopes was similarly explored and we observed that the epitope of 3 out of 4 non-NAbs were significantly more exposed in the RBDs representing the late timepoints in the chronic patient. By contrast, the exposure of non-neutralizing epitopes was reduced in the patient that cleared his/her infection and could in part be attributed to sequence changes in the igVR. These studies reveal that during HCV infection, the exposure of the CD81 binding site on E2 becomes increasingly occluded, and the antigenicity of the E2 RBD towards both neutralizing and non-neutralizing antibodies is modulated via allosteric mechanisms.

Highlights

Hepatitis C virus encodes two membrane anchored envelope proteins, E1 and E2, that are essential for attachment to target cells, viral fusion and entry, and are targets of the neutralizing antibody (NAb) response during infection
Mutations in the E1E2 region amplified from longitudinal samples that resulted in amino acid changes deviating from the E1E2 sequence obtained at the earliest available time point are summarised in Fig 1 with full sequences of the E2 receptor binding domain (RBD) region provided in S1 and S2 Figs
The E2 RBD region derived from the sequences within the two patients was used to examine how mutations within the E2 RBD affect exposure of the CD81 binding site and recognition of E2 RBD by neutralizing and non-neutralizing monoclonal antibodies

Summary

Introduction

Hepatitis C virus encodes two membrane anchored envelope proteins, E1 and E2, that are essential for attachment to target cells, viral fusion and entry, and are targets of the neutralizing antibody (NAb) response during infection. The cell surface tetraspanin CD81 has been shown to be an essential receptor for HCV entry into target cells and directly interacts with residues within the E2 receptor binding domain (RBD), residues 384–661. HVR2 and the igVR form surface exposed flexible regions flanked by cysteine residues [4,5,6]. They are not direct targets of the antibody response and the reason for variation within their sequences is unknown. Cell culture derived viruses (HCVcc) lacking HVR1 are more sensitive to NAbs and are more accessible to soluble CD81 [7]

Methods

Results

Conclusion