A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors

Many plant rhabdoviruses are neurotropic and can persistently infect the central nervous system (CNS) of their insect vectors without causing significant cytopathology. The mechanisms by which the insect CNS resists infection by plant rhabdoviruses are largely unknown. Here, we report that the neura...

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Autores principales: Wang, Haitao, Liu, Ye, Mo, Lining, Huo, Chenyang, Wang, Ziyao, Zhong, Panpan, Jia, Dongsheng, Zhang, Xiaofeng, Chen, Qian, Chen, Hongyan, Wei, Taiyun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2020
Materias:
Microbiology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7180231/
https://www.ncbi.nlm.nih.gov/pubmed/32362876
http://dx.doi.org/10.3389/fmicb.2020.00513
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author Wang, Haitao
Liu, Ye
Mo, Lining
Huo, Chenyang
Wang, Ziyao
Zhong, Panpan
Jia, Dongsheng
Zhang, Xiaofeng
Chen, Qian
Chen, Hongyan
Wei, Taiyun
author_facet Wang, Haitao
Liu, Ye
Mo, Lining
Huo, Chenyang
Wang, Ziyao
Zhong, Panpan
Jia, Dongsheng
Zhang, Xiaofeng
Chen, Qian
Chen, Hongyan
Wei, Taiyun
author_sort Wang, Haitao
collection PubMed
description Many plant rhabdoviruses are neurotropic and can persistently infect the central nervous system (CNS) of their insect vectors without causing significant cytopathology. The mechanisms by which the insect CNS resists infection by plant rhabdoviruses are largely unknown. Here, we report that the neural factor Hikaru genki homolog of the leafhopper Nephotettix cincticeps (NcHig) limits the spread of the nucleorhabdovirus rice yellow stunt virus (RYSV) in vector CNS. NcHig is predominantly expressed in the CNS of N. cincticeps, and the knockdown of NcHig expression by RNA interference enhances RYSV infection of the CNS. Furthermore, immuno-blockade of NcHig function by microinjection of N. cincticeps with NcHig antibody also enhances viral infection of the CNS. Thus, we conclude that the neuron-specific factor NcHig can control RYSV propagation in the CNS. Interestingly, we find the Hig homolog of the leafhopper Recilia dorsalis also has antiviral activity during the persistent infection of the cytorhabdovirus rice stripe mosaic virus (RSMV) in vector CNS. We further determine that RYSV and RSMV matrix proteins specifically interact with the complement control protein (CCP) domains of Higs. Thus, the matrix protein-binding ability of Hig is potentially essential for its antiviral activity in rice leafhoppers. Our results demonstrate an evolutionarily conserved antiviral mechanism for Hig to mediate the persistent infection of rice rhabdoviruses in the CNS of leafhopper vectors.
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spelling pubmed-71802312020-05-01 A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors Wang, Haitao Liu, Ye Mo, Lining Huo, Chenyang Wang, Ziyao Zhong, Panpan Jia, Dongsheng Zhang, Xiaofeng Chen, Qian Chen, Hongyan Wei, Taiyun Front Microbiol Microbiology Many plant rhabdoviruses are neurotropic and can persistently infect the central nervous system (CNS) of their insect vectors without causing significant cytopathology. The mechanisms by which the insect CNS resists infection by plant rhabdoviruses are largely unknown. Here, we report that the neural factor Hikaru genki homolog of the leafhopper Nephotettix cincticeps (NcHig) limits the spread of the nucleorhabdovirus rice yellow stunt virus (RYSV) in vector CNS. NcHig is predominantly expressed in the CNS of N. cincticeps, and the knockdown of NcHig expression by RNA interference enhances RYSV infection of the CNS. Furthermore, immuno-blockade of NcHig function by microinjection of N. cincticeps with NcHig antibody also enhances viral infection of the CNS. Thus, we conclude that the neuron-specific factor NcHig can control RYSV propagation in the CNS. Interestingly, we find the Hig homolog of the leafhopper Recilia dorsalis also has antiviral activity during the persistent infection of the cytorhabdovirus rice stripe mosaic virus (RSMV) in vector CNS. We further determine that RYSV and RSMV matrix proteins specifically interact with the complement control protein (CCP) domains of Higs. Thus, the matrix protein-binding ability of Hig is potentially essential for its antiviral activity in rice leafhoppers. Our results demonstrate an evolutionarily conserved antiviral mechanism for Hig to mediate the persistent infection of rice rhabdoviruses in the CNS of leafhopper vectors. Frontiers Media S.A. 2020-04-17 /pmc/articles/PMC7180231/ /pubmed/32362876 http://dx.doi.org/10.3389/fmicb.2020.00513 Text en Copyright © 2020 Wang, Liu, Mo, Huo, Wang, Zhong, Jia, Zhang, Chen, Chen and Wei. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Microbiology
Wang, Haitao
Liu, Ye
Mo, Lining
Huo, Chenyang
Wang, Ziyao
Zhong, Panpan
Jia, Dongsheng
Zhang, Xiaofeng
Chen, Qian
Chen, Hongyan
Wei, Taiyun
A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors
title A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors
title_full A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors
title_fullStr A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors
title_full_unstemmed A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors
title_short A Neuron-Specific Antiviral Mechanism Modulates the Persistent Infection of Rice Rhabdoviruses in Leafhopper Vectors
title_sort neuron-specific antiviral mechanism modulates the persistent infection of rice rhabdoviruses in leafhopper vectors
topic Microbiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7180231/
https://www.ncbi.nlm.nih.gov/pubmed/32362876
http://dx.doi.org/10.3389/fmicb.2020.00513
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