Interferon-gamma induction correlates with protection by DNA vaccine expressing E2 glycoprotein against classical swine fever virus infection in domestic pigs

Classical swine fever (CSF) is a highly contagious viral infection affecting domestic and wild pigs. For classical swine fever virus (CSFV), immunization with plasmids expressing different versions of glycoprotein E2 has proven an effective way to induce protection. Previously, we have also shown th...

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Published inVeterinary microbiology Vol. 142; no. 1-2; pp. 51 - 58
Main Authors Tarradas, J., Argilaguet, J.M., Rosell, R., Nofrarías, M., Crisci, E., Córdoba, L., Pérez-Martín, E., Díaz, I., Rodríguez, F., Domingo, M., Montoya, M., Ganges, L.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Amsterdam Elsevier B.V 21.04.2010
Elsevier
Subjects
Animals
Antibodies, Viral - blood
Biological and medical sciences
Cell Line
Classical Swine Fever - immunology
Classical Swine Fever - prevention & control
Classical swine fever virus
Classical swine fever virus - immunology
DNA vaccines
Fundamental and applied biological sciences. Psychology
Interferon-gamma
Interferon-gamma - immunology
Microbiology
Miscellaneous
Protection
Swine
Time Factors
Vaccines, DNA - immunology
Viral Envelope Proteins - immunology
Viral Vaccines - immunology
Virology
Interferon-gamma
DNA vaccines
Classical swine fever virus
Protection
Pestivirus
Farming animal
Cytokine
Glycoprotein
Genetic vaccine
Pig
Virus
Vertebrata
Mammalia
Swine
Artiodactyla
Flaviviridae
Veterinary
Ungulata
Gamma interferon
Hog cholera virus
protection
interferon gamma
Online AccessGet full text

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Abstract Classical swine fever (CSF) is a highly contagious viral infection affecting domestic and wild pigs. For classical swine fever virus (CSFV), immunization with plasmids expressing different versions of glycoprotein E2 has proven an effective way to induce protection. Previously, we have also shown that immunization with DNA vaccine expressing glycoprotein E2 (DNA-E2) induced specific T helper cell responses in the absence of neutralizing antibodies. However, the role of T cell responses in protection against CSFV is largely unknown. Here we have extended these studies to deeply characterize the role of T cell responses by a DNA-E2 and their correlation with protection against CSFV infection. Thus, pigs vaccinated with the DNA vaccine induced a strong cellular immune response, characterized by the specific induction IFN-gamma expressing T cells after vaccination without any detectable levels of CSFV neutralizing antibodies. Constant levels of CSFV-specific IFN-gamma producing cells observed from the beginning of the infection until 7 days after challenge in vaccinated animals might contribute to early control of CSFV replication, at least until neutralizing antibodies are developed. Severe clinical signs of the disease, including high titers of viremia, pyrexia and virus spread to different organs, were recorded in the non-vaccinated challenged animals, in comparison to the vaccinated animals where only one animal showed mild clinical signs and a short peak of viremia. Lack of complete protection in this animal correlated with a delay on the induction of neutralizing antibodies, detectable only from day 11 post-CSFV challenge. Conversely, the rest of the pigs within the group developed neutralizing antibodies as early as at day two post-challenge, correlating with sterile protection. Finally, an inverse correlation seemed to exist between early induction of IFN-alpha and the protection observed, while IL-10 seemed to be differentially regulated in vaccinated and non-vaccinated animals. Our results support the relevance of the induction of a strong T cellular response to confer a solid protection upon DNA vaccination against CSFV. Further experiments are needed to be done in order to clarify the key cytokines playing a role in CSFV-protection and to obtain emergency vaccines capable to confer robust and fast protection.
AbstractList Classical swine fever (CSF) is a highly contagious viral infection affecting domestic and wild pigs. For classical swine fever virus (CSFV), immunization with plasmids expressing different versions of glycoprotein E2 has proven an effective way to induce protection. Previously, we have also shown that immunization with DNA vaccine expressing glycoprotein E2 (DNA-E2) induced specific T helper cell responses in the absence of neutralizing antibodies. However, the role of T cell responses in protection against CSFV is largely unknown. Here we have extended these studies to deeply characterize the role of T cell responses by a DNA-E2 and their correlation with protection against CSFV infection. Thus, pigs vaccinated with the DNA vaccine induced a strong cellular immune response, characterized by the specific induction IFN-gamma expressing T cells after vaccination without any detectable levels of CSFV neutralizing antibodies. Constant levels of CSFV-specific IFN-gamma producing cells observed from the beginning of the infection until 7 days after challenge in vaccinated animals might contribute to early control of CSFV replication, at least until neutralizing antibodies are developed. Severe clinical signs of the disease, including high titers of viremia, pyrexia and virus spread to different organs, were recorded in the non-vaccinated challenged animals, in comparison to the vaccinated animals where only one animal showed mild clinical signs and a short peak of viremia. Lack of complete protection in this animal correlated with a delay on the induction of neutralizing antibodies, detectable only from day 11 post-CSFV challenge. Conversely, the rest of the pigs within the group developed neutralizing antibodies as early as at day two post-challenge, correlating with sterile protection. Finally, an inverse correlation seemed to exist between early induction of IFN-alpha and the protection observed, while IL-10 seemed to be differentially regulated in vaccinated and non-vaccinated animals. Our results support the relevance of the induction of a strong T cellular response to confer a solid protection upon DNA vaccination against CSFV. Further experiments are needed to be done in order to clarify the key cytokines playing a role in CSFV-protection and to obtain emergency vaccines capable to confer robust and fast protection.
Classical swine fever is a highly contagious viral infection affecting domestic and wild pigs. For CSFV, immunization with plasmids expressing different versions of glycoprotein E2 has proven an effective way to induce protection. Previously, we have also shown that immunization with DNA vaccine expressing glycoprotein E2 (DNA-E2) induced specific T helper cell responses in the absence of neutralizing antibodies. However, the role of T-cell responses in protection against CSFV is largely unknown.
Classical swine fever (CSF) is a highly contagious viral infection affecting domestic and wild pigs. For classical swine fever virus (CSFV), immunization with plasmids expressing different versions of glycoprotein E2 has proven an effective way to induce protection. Previously, we have also shown that immunization with DNA vaccine expressing glycoprotein E2 (DNA-E2) induced specific T helper cell responses in the absence of neutralizing antibodies. However, the role of T cell responses in protection against CSFV is largely unknown. Here we have extended these studies to deeply characterize the role of T cell responses by a DNA-E2 and their correlation with protection against CSFV infection. Thus, pigs vaccinated with the DNA vaccine induced a strong cellular immune response, characterized by the specific induction IFN-gamma expressing T cells after vaccination without any detectable levels of CSFV neutralizing antibodies. Constant levels of CSFV-specific IFN-gamma producing cells observed from the beginning of the infection until 7 days after challenge in vaccinated animals might contribute to early control of CSFV replication, at least until neutralizing antibodies are developed. Severe clinical signs of the disease, including high titers of viremia, pyrexia and virus spread to different organs, were recorded in the non-vaccinated challenged animals, in comparison to the vaccinated animals where only one animal showed mild clinical signs and a short peak of viremia. Lack of complete protection in this animal correlated with a delay on the induction of neutralizing antibodies, detectable only from day 11 post-CSFV challenge. Conversely, the rest of the pigs within the group developed neutralizing antibodies as early as at day two post-challenge, correlating with sterile protection. Finally, an inverse correlation seemed to exist between early induction of IFN-alpha and the protection observed, while IL-10 seemed to be differentially regulated in vaccinated and non-vaccinated animals. Our results support the relevance of the induction of a strong T cellular response to confer a solid protection upon DNA vaccination against CSFV. Further experiments are needed to be done in order to clarify the key cytokines playing a role in CSFV-protection and to obtain emergency vaccines capable to confer robust and fast protection.
Author Domingo, M.
Pérez-Martín, E.
Ganges, L.
Argilaguet, J.M.
Nofrarías, M.
Córdoba, L.
Crisci, E.
Tarradas, J.
Rodríguez, F.
Díaz, I.
Rosell, R.
Montoya, M.
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Issue 1-2
Keywords Interferon-gamma
DNA vaccines
Classical swine fever virus
Protection
Pestivirus
Farming animal
Cytokine
Glycoprotein
Genetic vaccine
Pig
Virus
Vertebrata
Mammalia
Swine
Artiodactyla
Flaviviridae
Veterinary
Ungulata
Gamma interferon
Hog cholera virus
protection
interferon gamma
Language English
License CC BY 4.0
Copyright 2009 Elsevier B.V. All rights reserved.
Distributed under a Creative Commons Attribution 4.0 International License: http://creativecommons.org/licenses/by/4.0
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Snippet Classical swine fever (CSF) is a highly contagious viral infection affecting domestic and wild pigs. For classical swine fever virus (CSFV), immunization with...
Classical swine fever is a highly contagious viral infection affecting domestic and wild pigs. For CSFV, immunization with plasmids expressing different...
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SubjectTerms Animals
Antibodies, Viral - blood
Biological and medical sciences
Cell Line
Classical Swine Fever - immunology
Classical Swine Fever - prevention & control
Classical swine fever virus
Classical swine fever virus - immunology
DNA vaccines
Fundamental and applied biological sciences. Psychology
Interferon-gamma
Interferon-gamma - immunology
Microbiology
Miscellaneous
Protection
Swine
Time Factors
Vaccines, DNA - immunology
Viral Envelope Proteins - immunology
Viral Vaccines - immunology
Virology
Title Interferon-gamma induction correlates with protection by DNA vaccine expressing E2 glycoprotein against classical swine fever virus infection in domestic pigs
URI https://dx.doi.org/10.1016/j.vetmic.2009.09.043
https://www.ncbi.nlm.nih.gov/pubmed/19896784
https://search.proquest.com/docview/733644008
https://search.proquest.com/docview/746156873
https://hal.science/hal-00578400
Volume 142
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