A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in Pigs

A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in Pigs

In this study, we explore the virulence of vesicular stomatitis New Jersey virus (VSNJV) in pigs and its potential relationship with the virus’s ability to modulate innate responses. For this purpose, we developed a mutant of the highly virulent strain NJ0612NME6, containing a single amino acid subs...

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Main Authors: Lauro Velazquez-Salinas, Steven J. Pauszek, Lauren G. Holinka, Douglas P. Gladue, Steven I. Rekant, Elizabeth A. Bishop, Carolina Stenfeldt, Antonio Verdugo-Rodriguez, Manuel V. Borca, Jonathan Arzt, Luis L. Rodriguez
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-05-01
Series:Frontiers in Microbiology
Subjects:
vesicular stomatitis
pathogenesis
M51R
virulence
macrophages
immune response
Online Access:https://www.frontiersin.org/article/10.3389/fmicb.2020.01123/full
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spelling doaj-6ae436f0c97844de9ea15c2f088203102020-11-25T02:54:04ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2020-05-011110.3389/fmicb.2020.01123528690A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in PigsLauro Velazquez-Salinas0Lauro Velazquez-Salinas1Lauro Velazquez-Salinas2Steven J. Pauszek3Lauren G. Holinka4Douglas P. Gladue5Steven I. Rekant6Steven I. Rekant7Elizabeth A. Bishop8Carolina Stenfeldt9Carolina Stenfeldt10Antonio Verdugo-Rodriguez11Manuel V. Borca12Jonathan Arzt13Luis L. Rodriguez14Foreign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesCollege of Veterinary Medicine and Animal Science, National Autonomous University of Mexico, Mexico City, MexicoPIADC Research Participation Program, Oak Ridge Institute for Science and Education, Oak Ridge, TN, United StatesForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesPIADC Research Participation Program, Oak Ridge Institute for Science and Education, Oak Ridge, TN, United StatesForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesDepartment of Veterinary Population Medicine, University of Minnesota, St. Paul, MN, United StatesCollege of Veterinary Medicine and Animal Science, National Autonomous University of Mexico, Mexico City, MexicoForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesForeign Animal Disease Research Unit, USDA/ARS Plum Island Animal Disease Center, Greenport, NY, United StatesIn this study, we explore the virulence of vesicular stomatitis New Jersey virus (VSNJV) in pigs and its potential relationship with the virus’s ability to modulate innate responses. For this purpose, we developed a mutant of the highly virulent strain NJ0612NME6, containing a single amino acid substitution in the matrix protein (M51R). The M51R mutant of NJ0612NME6 was unable to suppress the transcription of genes associated with the innate immune response both in primary fetal porcine kidney cells and porcine primary macrophage cultures. Impaired viral growth was observed only in porcine macrophage cultures, indicating that the M51 residue is required for efficient replication of VSNJV in these cells. Furthermore, when inoculated in pigs by intradermal scarification of the snout, M51R infection was characterized by decreased clinical signs including reduced fever and development of less and smaller secondary vesicular lesions. Pigs infected with M51R had decreased levels of viral shedding and absence of RNAemia compared to the parental virus. The ability of the mutant virus to infect pigs by direct contact remained intact, indicating that the M51R mutation resulted in a partially attenuated phenotype capable of causing primary lesions and transmitting to sentinel pigs. Collectively, our results show a positive correlation between the ability of VSNJV to counteract the innate immune response in swine macrophage cultures and the level of virulence in pigs, a natural host of this virus. More studies are encouraged to evaluate the interaction of VSNJV with macrophages and other components of the immune response in pigs.https://www.frontiersin.org/article/10.3389/fmicb.2020.01123/fullvesicular stomatitispathogenesisM51Rvirulencemacrophagesimmune response
collection DOAJ
language English
format Article
sources DOAJ
author Lauro Velazquez-Salinas
Lauro Velazquez-Salinas
Lauro Velazquez-Salinas
Steven J. Pauszek
Lauren G. Holinka
Douglas P. Gladue
Steven I. Rekant
Steven I. Rekant
Elizabeth A. Bishop
Carolina Stenfeldt
Carolina Stenfeldt
Antonio Verdugo-Rodriguez
Manuel V. Borca
Jonathan Arzt
Luis L. Rodriguez
spellingShingle Lauro Velazquez-Salinas
Lauro Velazquez-Salinas
Lauro Velazquez-Salinas
Steven J. Pauszek
Lauren G. Holinka
Douglas P. Gladue
Steven I. Rekant
Steven I. Rekant
Elizabeth A. Bishop
Carolina Stenfeldt
Carolina Stenfeldt
Antonio Verdugo-Rodriguez
Manuel V. Borca
Jonathan Arzt
Luis L. Rodriguez
A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in Pigs
Frontiers in Microbiology
vesicular stomatitis
pathogenesis
M51R
virulence
macrophages
immune response
author_facet Lauro Velazquez-Salinas
Lauro Velazquez-Salinas
Lauro Velazquez-Salinas
Steven J. Pauszek
Lauren G. Holinka
Douglas P. Gladue
Steven I. Rekant
Steven I. Rekant
Elizabeth A. Bishop
Carolina Stenfeldt
Carolina Stenfeldt
Antonio Verdugo-Rodriguez
Manuel V. Borca
Jonathan Arzt
Luis L. Rodriguez
author_sort Lauro Velazquez-Salinas
title A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in Pigs
title_short A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in Pigs
title_full A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in Pigs
title_fullStr A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in Pigs
title_full_unstemmed A Single Amino Acid Substitution in the Matrix Protein (M51R) of Vesicular Stomatitis New Jersey Virus Impairs Replication in Cultured Porcine Macrophages and Results in Significant Attenuation in Pigs
title_sort single amino acid substitution in the matrix protein (m51r) of vesicular stomatitis new jersey virus impairs replication in cultured porcine macrophages and results in significant attenuation in pigs
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2020-05-01
description In this study, we explore the virulence of vesicular stomatitis New Jersey virus (VSNJV) in pigs and its potential relationship with the virus’s ability to modulate innate responses. For this purpose, we developed a mutant of the highly virulent strain NJ0612NME6, containing a single amino acid substitution in the matrix protein (M51R). The M51R mutant of NJ0612NME6 was unable to suppress the transcription of genes associated with the innate immune response both in primary fetal porcine kidney cells and porcine primary macrophage cultures. Impaired viral growth was observed only in porcine macrophage cultures, indicating that the M51 residue is required for efficient replication of VSNJV in these cells. Furthermore, when inoculated in pigs by intradermal scarification of the snout, M51R infection was characterized by decreased clinical signs including reduced fever and development of less and smaller secondary vesicular lesions. Pigs infected with M51R had decreased levels of viral shedding and absence of RNAemia compared to the parental virus. The ability of the mutant virus to infect pigs by direct contact remained intact, indicating that the M51R mutation resulted in a partially attenuated phenotype capable of causing primary lesions and transmitting to sentinel pigs. Collectively, our results show a positive correlation between the ability of VSNJV to counteract the innate immune response in swine macrophage cultures and the level of virulence in pigs, a natural host of this virus. More studies are encouraged to evaluate the interaction of VSNJV with macrophages and other components of the immune response in pigs.
topic vesicular stomatitis
pathogenesis
M51R
virulence
macrophages
immune response
url https://www.frontiersin.org/article/10.3389/fmicb.2020.01123/full
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