Intranasal delivery of a protein subunit vaccine using a Tobacco Mosaic Virus platform protects against pneumonic plague

Abstract Yersinia pestis , one of history’s deadliest pathogens, has killed millions over the course of human history. It has attributes that make it an ideal choice to produce mass casualties and is a prime candidate for use as a biological weapon. When aerosolized, Y. pestis causes pneumonic plagu...

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Veröffentlicht in:	Vaccine 2016-11, Vol.34 (47), p.5768-5776
Hauptverfasser:	Arnaboldi, Paul M, Sambir, Mariya, D’Arco, Christina, Peters, Lauren A, Seegers, Jos F.M.L, Mayer, Lloyd, McCormick, Alison A, Dattwyler, Raymond J
Format:	Artikel
Sprache:	eng
Schlagworte:	Administration, Intranasal aerosols Allergy and Immunology Analysis of Variance Animals Antibiotics antibodies Antibodies, Bacterial - blood Antibodies, Bacterial - immunology Antigens, Bacterial - genetics Antigens, Bacterial - immunology cytokines Cytokines - analysis Disease Models, Animal Genes Humans immunoglobulin G Lactobacillus plantarum Lactobacillus plantarum - genetics Lactobacillus plantarum - immunology lethal dose Mice morbidity mortality Mucosal vaccination Pathogens plague Plague - prevention & control Plague Vaccine - administration & dosage Plague Vaccine - genetics Plague Vaccine - immunology pneumonia Pneumonia, Bacterial - prevention & control Pneumonic plague Pore Forming Cytotoxic Proteins - genetics Pore Forming Cytotoxic Proteins - immunology protein subunits secretion Studies subunit vaccines Time Factors Tobacco Mosaic Virus Tobacco Mosaic Virus - genetics Tobacco Mosaic Virus - immunology Vaccination Vaccines Vaccines, Subunit - administration & dosage Vaccines, Subunit - genetics Vaccines, Subunit - immunology Vaccines, Synthetic - administration & dosage Vaccines, Synthetic - genetics Vaccines, Synthetic - immunology Virgaviridae virulence Virulence Factors - genetics Virulence Factors - immunology Yersinia pestis Yersinia pestis - genetics Yersinia pestis - immunology
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creator	Arnaboldi, Paul M Sambir, Mariya D’Arco, Christina Peters, Lauren A Seegers, Jos F.M.L Mayer, Lloyd McCormick, Alison A Dattwyler, Raymond J
description	Abstract Yersinia pestis , one of history’s deadliest pathogens, has killed millions over the course of human history. It has attributes that make it an ideal choice to produce mass casualties and is a prime candidate for use as a biological weapon. When aerosolized, Y. pestis causes pneumonic plague, a pneumonia that is 100% lethal if not promptly treated with effective antibiotics. Currently, there is no FDA approved plague vaccine. The current lead vaccine candidate, a parenterally administered protein subunit vaccine comprised of the Y. pestis virulence factors, F1 and LcrV, demonstrated variable levels of protection in primate pneumonic plague models. As the most likely mode of exposure in biological attack with Y. pestis is by aerosol, this raises a question of whether this parenteral vaccine will adequately protect humans against pneumonic plague. In the present study we evaluated two distinct mucosal delivery platforms for the intranasal (IN) administration of LcrV and F1 vaccine proteins, a live bacterial vector, Lactobacillus plantarum , and a Tobacco Mosaic Virus (TMV) based delivery platform. IN administration of L. plantarum expressing LcrV, or TMV-conjugated to LcrV and F1 (TMV-LcrV+TMV-F1) resulted in the similar induction of high titers of IgG antibodies and evidence of proinflammatory cytokine secretion. However, only the TMV-conjugate delivery platform protected against subsequent lethal challenge with Y. pestis . TMV-LcrV+TMV-F1 co-vaccinated mice had no discernable morbidity and no mortality, while mice vaccinated with L. plantarum expressing LcrV or rLcrV+rF1 without TMV succumbed to infection or were only partially protected. Thus, TMV is a suitable mucosal delivery platform for an F1-LcrV subunit vaccine that induces complete protection against pneumonic infection with a lethal dose of Y. pestis in mice.
doi_str_mv	10.1016/j.vaccine.2016.09.063
format	Article
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It has attributes that make it an ideal choice to produce mass casualties and is a prime candidate for use as a biological weapon. When aerosolized, Y. pestis causes pneumonic plague, a pneumonia that is 100% lethal if not promptly treated with effective antibiotics. Currently, there is no FDA approved plague vaccine. The current lead vaccine candidate, a parenterally administered protein subunit vaccine comprised of the Y. pestis virulence factors, F1 and LcrV, demonstrated variable levels of protection in primate pneumonic plague models. As the most likely mode of exposure in biological attack with Y. pestis is by aerosol, this raises a question of whether this parenteral vaccine will adequately protect humans against pneumonic plague. In the present study we evaluated two distinct mucosal delivery platforms for the intranasal (IN) administration of LcrV and F1 vaccine proteins, a live bacterial vector, Lactobacillus plantarum , and a Tobacco Mosaic Virus (TMV) based delivery platform. IN administration of L. plantarum expressing LcrV, or TMV-conjugated to LcrV and F1 (TMV-LcrV+TMV-F1) resulted in the similar induction of high titers of IgG antibodies and evidence of proinflammatory cytokine secretion. However, only the TMV-conjugate delivery platform protected against subsequent lethal challenge with Y. pestis . TMV-LcrV+TMV-F1 co-vaccinated mice had no discernable morbidity and no mortality, while mice vaccinated with L. plantarum expressing LcrV or rLcrV+rF1 without TMV succumbed to infection or were only partially protected. Thus, TMV is a suitable mucosal delivery platform for an F1-LcrV subunit vaccine that induces complete protection against pneumonic infection with a lethal dose of Y. pestis in mice.</description><identifier>ISSN: 0264-410X</identifier><identifier>EISSN: 1873-2518</identifier><identifier>DOI: 10.1016/j.vaccine.2016.09.063</identifier><identifier>PMID: 27745954</identifier><language>eng</language><publisher>Netherlands: Elsevier Ltd</publisher><subject>Administration, Intranasal ; aerosols ; Allergy and Immunology ; Analysis of Variance ; Animals ; Antibiotics ; antibodies ; Antibodies, Bacterial - blood ; Antibodies, Bacterial - immunology ; Antigens, Bacterial - genetics ; Antigens, Bacterial - immunology ; cytokines ; Cytokines - analysis ; Disease Models, Animal ; Genes ; Humans ; immunoglobulin G ; Lactobacillus plantarum ; Lactobacillus plantarum - genetics ; Lactobacillus plantarum - immunology ; lethal dose ; Mice ; morbidity ; mortality ; Mucosal vaccination ; Pathogens ; plague ; Plague - prevention & control ; Plague Vaccine - administration & dosage ; Plague Vaccine - genetics ; Plague Vaccine - immunology ; pneumonia ; Pneumonia, Bacterial - prevention & control ; Pneumonic plague ; Pore Forming Cytotoxic Proteins - genetics ; Pore Forming Cytotoxic Proteins - immunology ; protein subunits ; secretion ; Studies ; subunit vaccines ; Time Factors ; Tobacco Mosaic Virus ; Tobacco Mosaic Virus - genetics ; Tobacco Mosaic Virus - immunology ; Vaccination ; Vaccines ; Vaccines, Subunit - administration & dosage ; Vaccines, Subunit - genetics ; Vaccines, Subunit - immunology ; Vaccines, Synthetic - administration & dosage ; Vaccines, Synthetic - genetics ; Vaccines, Synthetic - immunology ; Virgaviridae ; virulence ; Virulence Factors - genetics ; Virulence Factors - immunology ; Yersinia pestis ; Yersinia pestis - genetics ; Yersinia pestis - immunology</subject><ispartof>Vaccine, 2016-11, Vol.34 (47), p.5768-5776</ispartof><rights>Elsevier Ltd</rights><rights>2016 Elsevier Ltd</rights><rights>Copyright © 2016 Elsevier Ltd. 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It has attributes that make it an ideal choice to produce mass casualties and is a prime candidate for use as a biological weapon. When aerosolized, Y. pestis causes pneumonic plague, a pneumonia that is 100% lethal if not promptly treated with effective antibiotics. Currently, there is no FDA approved plague vaccine. The current lead vaccine candidate, a parenterally administered protein subunit vaccine comprised of the Y. pestis virulence factors, F1 and LcrV, demonstrated variable levels of protection in primate pneumonic plague models. As the most likely mode of exposure in biological attack with Y. pestis is by aerosol, this raises a question of whether this parenteral vaccine will adequately protect humans against pneumonic plague. In the present study we evaluated two distinct mucosal delivery platforms for the intranasal (IN) administration of LcrV and F1 vaccine proteins, a live bacterial vector, Lactobacillus plantarum , and a Tobacco Mosaic Virus (TMV) based delivery platform. IN administration of L. plantarum expressing LcrV, or TMV-conjugated to LcrV and F1 (TMV-LcrV+TMV-F1) resulted in the similar induction of high titers of IgG antibodies and evidence of proinflammatory cytokine secretion. However, only the TMV-conjugate delivery platform protected against subsequent lethal challenge with Y. pestis . TMV-LcrV+TMV-F1 co-vaccinated mice had no discernable morbidity and no mortality, while mice vaccinated with L. plantarum expressing LcrV or rLcrV+rF1 without TMV succumbed to infection or were only partially protected. Thus, TMV is a suitable mucosal delivery platform for an F1-LcrV subunit vaccine that induces complete protection against pneumonic infection with a lethal dose of Y. pestis in mice.</abstract><cop>Netherlands</cop><pub>Elsevier Ltd</pub><pmid>27745954</pmid><doi>10.1016/j.vaccine.2016.09.063</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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recordid	cdi_pubmedcentral_primary_oai_pubmedcentral_nih_gov_5109979
source	MEDLINE; Elsevier ScienceDirect Journals
subjects	Administration, Intranasal aerosols Allergy and Immunology Analysis of Variance Animals Antibiotics antibodies Antibodies, Bacterial - blood Antibodies, Bacterial - immunology Antigens, Bacterial - genetics Antigens, Bacterial - immunology cytokines Cytokines - analysis Disease Models, Animal Genes Humans immunoglobulin G Lactobacillus plantarum Lactobacillus plantarum - genetics Lactobacillus plantarum - immunology lethal dose Mice morbidity mortality Mucosal vaccination Pathogens plague Plague - prevention & control Plague Vaccine - administration & dosage Plague Vaccine - genetics Plague Vaccine - immunology pneumonia Pneumonia, Bacterial - prevention & control Pneumonic plague Pore Forming Cytotoxic Proteins - genetics Pore Forming Cytotoxic Proteins - immunology protein subunits secretion Studies subunit vaccines Time Factors Tobacco Mosaic Virus Tobacco Mosaic Virus - genetics Tobacco Mosaic Virus - immunology Vaccination Vaccines Vaccines, Subunit - administration & dosage Vaccines, Subunit - genetics Vaccines, Subunit - immunology Vaccines, Synthetic - administration & dosage Vaccines, Synthetic - genetics Vaccines, Synthetic - immunology Virgaviridae virulence Virulence Factors - genetics Virulence Factors - immunology Yersinia pestis Yersinia pestis - genetics Yersinia pestis - immunology
title	Intranasal delivery of a protein subunit vaccine using a Tobacco Mosaic Virus platform protects against pneumonic plague
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