The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals

Nipah virus (NiV) P gene encodes P protein and three accessory proteins (V, C and W). It has been reported that all four P gene products have IFN antagonist activity when the proteins were transiently expressed. However, the role of those accessory proteins in natural infection with NiV remains unkn...

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Autores principales: Yoneda, Misako, Guillaume, Vanessa, Sato, Hiroki, Fujita, Kentaro, Georges-Courbot, Marie-Claude, Ikeda, Fusako, Omi, Mio, Muto-Terao, Yuri, Wild, T. Fabian, Kai, Chieko
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2010
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2939873/
https://www.ncbi.nlm.nih.gov/pubmed/20856799
http://dx.doi.org/10.1371/journal.pone.0012709
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author Yoneda, Misako
Guillaume, Vanessa
Sato, Hiroki
Fujita, Kentaro
Georges-Courbot, Marie-Claude
Ikeda, Fusako
Omi, Mio
Muto-Terao, Yuri
Wild, T. Fabian
Kai, Chieko
author_facet Yoneda, Misako
Guillaume, Vanessa
Sato, Hiroki
Fujita, Kentaro
Georges-Courbot, Marie-Claude
Ikeda, Fusako
Omi, Mio
Muto-Terao, Yuri
Wild, T. Fabian
Kai, Chieko
author_sort Yoneda, Misako
collection PubMed
description Nipah virus (NiV) P gene encodes P protein and three accessory proteins (V, C and W). It has been reported that all four P gene products have IFN antagonist activity when the proteins were transiently expressed. However, the role of those accessory proteins in natural infection with NiV remains unknown. We generated recombinant NiVs lacking V, C or W protein, rNiV(V−), rNiV(C−), and rNiV(W−), respectively, to analyze the functions of these proteins in infected cells and the implications in in vivo pathogenicity. All the recombinants grew well in cell culture, although the maximum titers of rNiV(V−) and rNiV(C−) were lower than the other recombinants. The rNiV(V−), rNiV(C−) and rNiV(W−) suppressed the IFN response as well as the parental rNiV, thereby indicating that the lack of each accessory protein does not significantly affect the inhibition of IFN signaling in infected cells. In experimentally infected golden hamsters, rNiV(V−) and rNiV(C−) but not the rNiV(W−) virus showed a significant reduction in virulence. These results suggest that V and C proteins play key roles in NiV pathogenicity, and the roles are independent of their IFN-antagonist activity. This is the first report that identifies the molecular determinants of NiV in pathogenicity in vivo.
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spelling pubmed-29398732010-09-20 The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals Yoneda, Misako Guillaume, Vanessa Sato, Hiroki Fujita, Kentaro Georges-Courbot, Marie-Claude Ikeda, Fusako Omi, Mio Muto-Terao, Yuri Wild, T. Fabian Kai, Chieko PLoS One Research Article Nipah virus (NiV) P gene encodes P protein and three accessory proteins (V, C and W). It has been reported that all four P gene products have IFN antagonist activity when the proteins were transiently expressed. However, the role of those accessory proteins in natural infection with NiV remains unknown. We generated recombinant NiVs lacking V, C or W protein, rNiV(V−), rNiV(C−), and rNiV(W−), respectively, to analyze the functions of these proteins in infected cells and the implications in in vivo pathogenicity. All the recombinants grew well in cell culture, although the maximum titers of rNiV(V−) and rNiV(C−) were lower than the other recombinants. The rNiV(V−), rNiV(C−) and rNiV(W−) suppressed the IFN response as well as the parental rNiV, thereby indicating that the lack of each accessory protein does not significantly affect the inhibition of IFN signaling in infected cells. In experimentally infected golden hamsters, rNiV(V−) and rNiV(C−) but not the rNiV(W−) virus showed a significant reduction in virulence. These results suggest that V and C proteins play key roles in NiV pathogenicity, and the roles are independent of their IFN-antagonist activity. This is the first report that identifies the molecular determinants of NiV in pathogenicity in vivo. Public Library of Science 2010-09-15 /pmc/articles/PMC2939873/ /pubmed/20856799 http://dx.doi.org/10.1371/journal.pone.0012709 Text en Yoneda et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Yoneda, Misako
Guillaume, Vanessa
Sato, Hiroki
Fujita, Kentaro
Georges-Courbot, Marie-Claude
Ikeda, Fusako
Omi, Mio
Muto-Terao, Yuri
Wild, T. Fabian
Kai, Chieko
The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals
title The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals
title_full The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals
title_fullStr The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals
title_full_unstemmed The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals
title_short The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals
title_sort nonstructural proteins of nipah virus play a key role in pathogenicity in experimentally infected animals
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2939873/
https://www.ncbi.nlm.nih.gov/pubmed/20856799
http://dx.doi.org/10.1371/journal.pone.0012709
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