HIV-1 Env DNA Vaccine plus Protein Boost Delivered by EP Expands B- and T-Cell Responses and Neutralizing Phenotype In Vivo

Kar Muthumani,Janess Mendoza,Jian Yan,Natalie Hutnick,Megan C Wise,Jonathan Goodman,Seleeke Flingai,Kate E Broderick,Colleen Tingey,Chaoran B Bian,Niranjan Y Sardesai,Krzysztof Wojtak,Christine Wilson,David B Weiner,Mauricio Martins Rodrigues

doi:10.1371/journal.pone.0084234

Kar Muthumani, Janess Mendoza + Show 13 more

Open Access

https://doi.org/10.1371/journal.pone.0084234

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Abstract

An effective HIV vaccine will most likely require the induction of strong T-cell responses, broadly neutralizing antibodies (bNAbs), and the elicitation of antibody-dependent cellular cytotoxicity (ADCC). Previously, we demonstrated the induction of strong HIV/SIV cellular immune responses in macaques and humans using synthetic consensus DNA immunogens delivered via adaptive electroporation (EP). However, the ability of this improved DNA approach to prime for relevant antibody responses has not been previously studied. Here, we investigate the immunogenicity of consensus DNA constructs encoding gp140 sequences from HIV-1 subtypes A, B, C and D in a DNA prime-protein boost vaccine regimen. Mice and guinea pigs were primed with single- and multi-clade DNA via EP and boosted with recombinant gp120 protein. Sera were analyzed for gp120 binding and induction of neutralizing antibody activity. Immunization with recombinant Env protein alone induced low-titer binding antibodies with limited neutralization breath. In contrast, the synthetic DNA prime-protein boost protocol induced significantly higher antibody binding titers. Furthermore, sera from DNA prime-protein boost groups were able to neutralize a broader range of viruses in a panel of tier 1 clade B viruses as well as multiple tier 1 clade A and clade C viruses. Further investigation of synthetic DNA prime plus adaptive EP plus protein boost appears warranted.

Highlights

There is an urgent need for improved vaccination approaches against HIV that induce improved humoral and cellular immune responses [1,2,3,4]
We have recently reported the induction of strong HIV/SIV-specific cellular immune responses in mice, macaques and humans using consensus DNA immunogens delivered via electroporation (EP) [7,9,12,13,14,15]
We examined the immunogenicity of a synthetic consensus DNA vaccine encoding gp140 constructs derived from individual HIV-1 subtypes A, B, C and D in a DNA prime-protein boost regimen

Summary

Introduction

There is an urgent need for improved vaccination approaches against HIV that induce improved humoral and cellular immune responses [1,2,3,4]. We have recently reported the induction of strong HIV/SIV-specific cellular immune responses in mice, macaques and humans using consensus DNA immunogens delivered via electroporation (EP) [7,9,12,13,14,15]. While these studies have confirmed the induction of a potent and broad cell-mediated response, the ability of this improved DNA-EP platform to induce or prime for neutralizing antibodies (NAbs) is unknown. Due to a heightened interest in trying to improve immune responses to HIV included by DNA prime-protein boost vaccination strategies, here we studied this combination focused on increasing binding titers and neutralization capacity in vivo [2,3,16]

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Conclusion