Multimeric scaffolds displaying the HIV-1 envelope MPER induce MPER-specific antibodies and cross-neutralizing antibodies when co-immunized with gp160 DNA.

Shelly J Krebs,Sean P Mcburney,Chelsea D Waddell,Piergiuseppe Deberardinis,Nancy L Haigwood,Garret Waagmeester,Maria Trovato,Susan J Barnett,J Pablo Jaworski,William F Sutton,Michelle M Gomes,Dina N Kovarik,Jamie Kathleen Scott

doi:10.1371/journal.pone.0113463

Abstract

Developing a vaccine that overcomes the diversity of HIV-1 is likely to require a strategy that directs antibody (Ab) responses toward conserved regions of the viral Envelope (Env). However, the generation of neutralizing Abs (NAbs) targeting these regions through vaccination has proven to be difficult. One conserved region of particular interest is the membrane proximal external region (MPER) of Env located within the gp41 ectodomain. In order to direct the immune response to this region, the MPER and gp41 ectodomain were expressed separately as N-terminal fusions to the E2 protein of Geobacillus stearothermophilus. The E2 protein acts as a scaffold by self-assembling into 60-mer particles, displaying up to 60 copies of the fused target on the surface. Rabbits were immunized with E2 particles displaying MPER and/or the gp41 ectodomain in conjunction with DNA encoding full-length gp160. Only vaccines including E2 particles displaying MPER elicited MPER-specific Ab responses. NAbs were elicited after two immunizations that largely targeted the V3 loop. To overcome V3 immunodominance in the DNA component, E2 particles displaying MPER were used in conjunction with gp160 DNA lacking hypervariable regions V2, V3, or combined V1V2V3. All rabbits had HIV binding Ab responses and NAbs following the second vaccination. Using HIV-2/HIV-1 MPER chimeric viruses as targets, NAbs were detected in 12/16 rabbits after three immunizations. Low levels of NAbs specific for Tier 1 and 2 viruses were observed in all groups. This study provides evidence that co-immunizing E2 particles displaying MPER and gp160 DNA can focus Ab responses toward conserved regions of Env.

Highlights

HIV-1 infection continues to be a worldwide epidemic with more than 2.5 million individuals newly infected annually [1]
Despite the challenge of sequence variability inherent in the HIV-1 Env, there are a number of conserved regions that are targets of broad neutralizing Abs (NAbs), including the membrane proximal external region (MPER)
We provide evidence for the induction of binding Abs directed to the MPER using Env(MPER)-E2 particles co-immunized with gp160 full-length DNA or gp160 DNA lacking variable loops V2, V3, or V123, as well as the induction of NAbs capable of neutralizing several heterologous HIV-1 pseudovirus isolates at modest levels

Summary

Introduction

HIV-1 infection continues to be a worldwide epidemic with more than 2.5 million individuals newly infected annually [1]. A major challenge of HIV-1 vaccine development has been the large diversity of viral isolates. Numerous strategies have been developed to address viral diversity [for review [2,3,4]], and one strategy of particular interest is to focus on highly conserved regions of Envelope (Env) that are targets of neutralizing (N) antibodies (Abs) during infection. Such NmAbs have been shown to neutralize .90% of viral isolates tested [5], and are termed broadly neutralizing Abs (bNmAbs) These bNmAbs are capable of protecting against infection in challenge models [6,7,8,9,10]

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