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Zika Virus-Like Particles Bearing a Covalent Dimer of Envelope Protein Protect Mice from Lethal Challenge

Zika virus (ZIKV) envelope (E) protein is the major target of neutralizing antibodies in infected hosts and thus represents a candidate of interest for vaccine design. However, a major concern in the development of vaccines against ZIKV and the related dengue virus is the induction of cross-reactive...

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Autores principales: De Lorenzo, Giuditta, Tandavanitj, Rapeepat, Doig, Jennifer, Setthapramote, Chayanee, Poggianella, Monica, Sanchez-Velazquez, Ricardo, Scales, Hannah E., Edgar, Julia M., Kohl, Alain, Brewer, James, Burrone, Oscar R., Patel, Arvind H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7737734/
https://www.ncbi.nlm.nih.gov/pubmed/33028720
http://dx.doi.org/10.1128/JVI.01415-20
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author De Lorenzo, Giuditta
Tandavanitj, Rapeepat
Doig, Jennifer
Setthapramote, Chayanee
Poggianella, Monica
Sanchez-Velazquez, Ricardo
Scales, Hannah E.
Edgar, Julia M.
Kohl, Alain
Brewer, James
Burrone, Oscar R.
Patel, Arvind H.
author_facet De Lorenzo, Giuditta
Tandavanitj, Rapeepat
Doig, Jennifer
Setthapramote, Chayanee
Poggianella, Monica
Sanchez-Velazquez, Ricardo
Scales, Hannah E.
Edgar, Julia M.
Kohl, Alain
Brewer, James
Burrone, Oscar R.
Patel, Arvind H.
author_sort De Lorenzo, Giuditta
collection PubMed
description Zika virus (ZIKV) envelope (E) protein is the major target of neutralizing antibodies in infected hosts and thus represents a candidate of interest for vaccine design. However, a major concern in the development of vaccines against ZIKV and the related dengue virus is the induction of cross-reactive poorly neutralizing antibodies that can cause antibody-dependent enhancement (ADE) of infection. This risk necessitates particular care in vaccine design. Specifically, the engineered immunogens should have their cross-reactive epitopes masked, and they should be optimized for eliciting virus-specific strongly neutralizing antibodies upon vaccination. Here, we developed ZIKV subunit- and virus-like particle (VLP)-based vaccines displaying E in its wild-type form or E locked in a covalently linked dimeric (cvD) conformation to enhance the exposure of E dimers to the immune system. Compared with their wild-type derivatives, cvD immunogens elicited antibodies with a higher capacity to neutralize virus infection in cultured cells. More importantly, these immunogens protected animals from lethal challenge with both the African and Asian lineages of ZIKV, impairing virus dissemination to brain and sexual organs. Moreover, the locked conformation of E reduced the exposure of epitopes recognized by cross-reactive antibodies and therefore showed a lower potential to induce ADE in vitro. Our data demonstrated a higher efficacy of the VLPs in comparison with that of the soluble dimer and support VLP-cvD as a promising ZIKV vaccine. IMPORTANCE Infection with Zika virus (ZIKV) leads to the production by the host of antibodies that target the viral surface envelope (E) protein. A subset of these antibodies can inhibit virus infection, thus making E a suitable candidate for the development of vaccine against the virus. However, the anti-ZIKV E antibodies can cross-react with the E protein of the related dengue virus on account of the high level of similarity exhibited by the two viral proteins. Such a scenario may lead to severe dengue disease. Therefore, the design of a ZIKV vaccine requires particular care. Here, we tested two candidate vaccines containing a recombinant form of the ZIKV E protein that is forced in a covalently stable dimeric conformation (cvD). They were generated with an explicit aim to reduce the exposure of the cross-reactive epitopes. One vaccine is composed of a soluble form of the E protein (sE-cvD), the other is a more complex virus-like particle (VLP-cvD). We used the two candidate vaccines to immunize mice and later infected them with ZIKV. The animals produced a high level of inhibitory antibodies and were protected from the infection. The VLP-cvD was the most effective, and we believe it represents a promising ZIKV vaccine candidate.
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spelling pubmed-77377342020-12-30 Zika Virus-Like Particles Bearing a Covalent Dimer of Envelope Protein Protect Mice from Lethal Challenge De Lorenzo, Giuditta Tandavanitj, Rapeepat Doig, Jennifer Setthapramote, Chayanee Poggianella, Monica Sanchez-Velazquez, Ricardo Scales, Hannah E. Edgar, Julia M. Kohl, Alain Brewer, James Burrone, Oscar R. Patel, Arvind H. J Virol Vaccines and Antiviral Agents Zika virus (ZIKV) envelope (E) protein is the major target of neutralizing antibodies in infected hosts and thus represents a candidate of interest for vaccine design. However, a major concern in the development of vaccines against ZIKV and the related dengue virus is the induction of cross-reactive poorly neutralizing antibodies that can cause antibody-dependent enhancement (ADE) of infection. This risk necessitates particular care in vaccine design. Specifically, the engineered immunogens should have their cross-reactive epitopes masked, and they should be optimized for eliciting virus-specific strongly neutralizing antibodies upon vaccination. Here, we developed ZIKV subunit- and virus-like particle (VLP)-based vaccines displaying E in its wild-type form or E locked in a covalently linked dimeric (cvD) conformation to enhance the exposure of E dimers to the immune system. Compared with their wild-type derivatives, cvD immunogens elicited antibodies with a higher capacity to neutralize virus infection in cultured cells. More importantly, these immunogens protected animals from lethal challenge with both the African and Asian lineages of ZIKV, impairing virus dissemination to brain and sexual organs. Moreover, the locked conformation of E reduced the exposure of epitopes recognized by cross-reactive antibodies and therefore showed a lower potential to induce ADE in vitro. Our data demonstrated a higher efficacy of the VLPs in comparison with that of the soluble dimer and support VLP-cvD as a promising ZIKV vaccine. IMPORTANCE Infection with Zika virus (ZIKV) leads to the production by the host of antibodies that target the viral surface envelope (E) protein. A subset of these antibodies can inhibit virus infection, thus making E a suitable candidate for the development of vaccine against the virus. However, the anti-ZIKV E antibodies can cross-react with the E protein of the related dengue virus on account of the high level of similarity exhibited by the two viral proteins. Such a scenario may lead to severe dengue disease. Therefore, the design of a ZIKV vaccine requires particular care. Here, we tested two candidate vaccines containing a recombinant form of the ZIKV E protein that is forced in a covalently stable dimeric conformation (cvD). They were generated with an explicit aim to reduce the exposure of the cross-reactive epitopes. One vaccine is composed of a soluble form of the E protein (sE-cvD), the other is a more complex virus-like particle (VLP-cvD). We used the two candidate vaccines to immunize mice and later infected them with ZIKV. The animals produced a high level of inhibitory antibodies and were protected from the infection. The VLP-cvD was the most effective, and we believe it represents a promising ZIKV vaccine candidate. American Society for Microbiology 2020-12-09 /pmc/articles/PMC7737734/ /pubmed/33028720 http://dx.doi.org/10.1128/JVI.01415-20 Text en Copyright © 2020 De Lorenzo et al. https://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Vaccines and Antiviral Agents
De Lorenzo, Giuditta
Tandavanitj, Rapeepat
Doig, Jennifer
Setthapramote, Chayanee
Poggianella, Monica
Sanchez-Velazquez, Ricardo
Scales, Hannah E.
Edgar, Julia M.
Kohl, Alain
Brewer, James
Burrone, Oscar R.
Patel, Arvind H.
Zika Virus-Like Particles Bearing a Covalent Dimer of Envelope Protein Protect Mice from Lethal Challenge
title Zika Virus-Like Particles Bearing a Covalent Dimer of Envelope Protein Protect Mice from Lethal Challenge
title_full Zika Virus-Like Particles Bearing a Covalent Dimer of Envelope Protein Protect Mice from Lethal Challenge
title_fullStr Zika Virus-Like Particles Bearing a Covalent Dimer of Envelope Protein Protect Mice from Lethal Challenge
title_full_unstemmed Zika Virus-Like Particles Bearing a Covalent Dimer of Envelope Protein Protect Mice from Lethal Challenge
title_short Zika Virus-Like Particles Bearing a Covalent Dimer of Envelope Protein Protect Mice from Lethal Challenge
title_sort zika virus-like particles bearing a covalent dimer of envelope protein protect mice from lethal challenge
topic Vaccines and Antiviral Agents
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7737734/
https://www.ncbi.nlm.nih.gov/pubmed/33028720
http://dx.doi.org/10.1128/JVI.01415-20
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