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Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms

DNA integrity is a key issue in gene therapy and genetic vaccine approaches based on plasmid DNA. In contrast to messenger RNA that requires a controlled cold chain for efficacy, DNA molecules are considered to be more stable. In this study, we challenged this concept by characterizing the immunolog...

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Autores principales:	D’Alessio, Federico, Lione, Lucia, Salvatori, Erika, Bucci, Federica, Muzi, Alessia, Roscilli, Giuseppe, Compagnone, Mirco, Pinto, Eleonora, Battistuzzi, Gianfranco, Conforti, Antonella, Aurisicchio, Luigi, Palombo, Fabio
Formato:	Online Artículo Texto
Lenguaje:	English
Publicado:	MDPI 2023
Materias:	Article
Acceso en línea:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10054807/ https://www.ncbi.nlm.nih.gov/pubmed/36992261 http://dx.doi.org/10.3390/vaccines11030678

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author	D’Alessio, Federico Lione, Lucia Salvatori, Erika Bucci, Federica Muzi, Alessia Roscilli, Giuseppe Compagnone, Mirco Pinto, Eleonora Battistuzzi, Gianfranco Conforti, Antonella Aurisicchio, Luigi Palombo, Fabio
author_facet	D’Alessio, Federico Lione, Lucia Salvatori, Erika Bucci, Federica Muzi, Alessia Roscilli, Giuseppe Compagnone, Mirco Pinto, Eleonora Battistuzzi, Gianfranco Conforti, Antonella Aurisicchio, Luigi Palombo, Fabio
author_sort	D’Alessio, Federico
collection	PubMed
description	DNA integrity is a key issue in gene therapy and genetic vaccine approaches based on plasmid DNA. In contrast to messenger RNA that requires a controlled cold chain for efficacy, DNA molecules are considered to be more stable. In this study, we challenged this concept by characterizing the immunological response induced by a plasmid DNA vaccine delivered using electroporation. As a model, we used COVID-eVax, a plasmid DNA-based vaccine that targets the receptor binding domain (RBD) of the SARS-CoV-2 spike protein. Increased nicked DNA was produced by using either an accelerated stability protocol or a lyophilization protocol. Surprisingly, the immune response induced in vivo was only minimally affected by the percentage of open circular DNA. This result suggests that plasmid DNA vaccines, such as COVID-eVax that have recently completed a phase I clinical trial, retain their efficacy upon storage at higher temperatures, and this feature may facilitate their use in low-/middle-income countries.
format	Online Article Text
id	pubmed-10054807
institution	National Center for Biotechnology Information
language	English
publishDate	2023
publisher	MDPI
record_format	MEDLINE/PubMed
spelling	pubmed-100548072023-03-30 Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms D’Alessio, Federico Lione, Lucia Salvatori, Erika Bucci, Federica Muzi, Alessia Roscilli, Giuseppe Compagnone, Mirco Pinto, Eleonora Battistuzzi, Gianfranco Conforti, Antonella Aurisicchio, Luigi Palombo, Fabio Vaccines (Basel) Article DNA integrity is a key issue in gene therapy and genetic vaccine approaches based on plasmid DNA. In contrast to messenger RNA that requires a controlled cold chain for efficacy, DNA molecules are considered to be more stable. In this study, we challenged this concept by characterizing the immunological response induced by a plasmid DNA vaccine delivered using electroporation. As a model, we used COVID-eVax, a plasmid DNA-based vaccine that targets the receptor binding domain (RBD) of the SARS-CoV-2 spike protein. Increased nicked DNA was produced by using either an accelerated stability protocol or a lyophilization protocol. Surprisingly, the immune response induced in vivo was only minimally affected by the percentage of open circular DNA. This result suggests that plasmid DNA vaccines, such as COVID-eVax that have recently completed a phase I clinical trial, retain their efficacy upon storage at higher temperatures, and this feature may facilitate their use in low-/middle-income countries. MDPI 2023-03-16 /pmc/articles/PMC10054807/ /pubmed/36992261 http://dx.doi.org/10.3390/vaccines11030678 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle	Article D’Alessio, Federico Lione, Lucia Salvatori, Erika Bucci, Federica Muzi, Alessia Roscilli, Giuseppe Compagnone, Mirco Pinto, Eleonora Battistuzzi, Gianfranco Conforti, Antonella Aurisicchio, Luigi Palombo, Fabio Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms
title	Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms
title_full	Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms
title_fullStr	Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms
title_full_unstemmed	Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms
title_short	Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms
title_sort	immunogenicity of covid-evax delivered by electroporation is moderately impacted by temperature and molecular isoforms
topic	Article
url	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10054807/ https://www.ncbi.nlm.nih.gov/pubmed/36992261 http://dx.doi.org/10.3390/vaccines11030678
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Immunogenicity of COVID-eVax Delivered by Electroporation Is Moderately Impacted by Temperature and Molecular Isoforms

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