Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cells

Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cells

Abstract Background Until the end of the twentieth century, Zika virus (ZIKV) was thought to cause a mostly mild, self-limiting disease in humans. However, as the geographic distribution of ZIKV has shifted, so too has its pathogenicity. Modern-day ZIKV infection is now known to cause encephalitis,...

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Main Authors: Emina Hayashida, Zheng Lung Ling, Thomas M. Ashhurst, Barney Viengkhou, So Ri Jung, Pattama Songkhunawej, Phillip K. West, Nicholas J. C. King, Markus J. Hofer
Format: Article
Language:English
Published: BMC 2019-09-01
Series:Journal of Neuroinflammation
Subjects:
Zika virus
Microglia
Monocyte
Neutrophil
Encephalitis
Innate immunity
Online Access:http://link.springer.com/article/10.1186/s12974-019-1566-5
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record_format Article
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language English
format Article
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author Emina Hayashida
Zheng Lung Ling
Thomas M. Ashhurst
Barney Viengkhou
So Ri Jung
Pattama Songkhunawej
Phillip K. West
Nicholas J. C. King
Markus J. Hofer
spellingShingle Emina Hayashida
Zheng Lung Ling
Thomas M. Ashhurst
Barney Viengkhou
So Ri Jung
Pattama Songkhunawej
Phillip K. West
Nicholas J. C. King
Markus J. Hofer
Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cells
Journal of Neuroinflammation
Zika virus
Microglia
Monocyte
Neutrophil
Encephalitis
Innate immunity
author_facet Emina Hayashida
Zheng Lung Ling
Thomas M. Ashhurst
Barney Viengkhou
So Ri Jung
Pattama Songkhunawej
Phillip K. West
Nicholas J. C. King
Markus J. Hofer
author_sort Emina Hayashida
title Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cells
title_short Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cells
title_full Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cells
title_fullStr Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cells
title_full_unstemmed Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cells
title_sort zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require t or b cells
publisher BMC
series Journal of Neuroinflammation
issn 1742-2094
publishDate 2019-09-01
description Abstract Background Until the end of the twentieth century, Zika virus (ZIKV) was thought to cause a mostly mild, self-limiting disease in humans. However, as the geographic distribution of ZIKV has shifted, so too has its pathogenicity. Modern-day ZIKV infection is now known to cause encephalitis, acute disseminated encephalomyelitis, and Guillain-Barré syndrome in otherwise healthy adults. Nevertheless, the underlying pathogenetic mechanisms responsible for this shift in virulence remain unclear. Methods Here, we investigated the contribution of the innate versus the adaptive immune response using a new mouse model involving intracranial infection of adult immunocompetent mice with a moderately low dose of ZIKV MR766. To determine the contribution of type I interferons (IFN-Is) and adaptive immune cells, we also studied mice deficient for the IFN-I receptor 1 (Ifnar1 −/− ) and recombination-activating gene 1 (Rag1 −/− ). Results We show that intracranial infection with ZIKV resulted in lethal encephalitis. In wild-type mice, ZIKV remained restricted predominantly to the central nervous system (CNS) and infected neurons, whereas astrocytes and microglia were spared. Histological and molecular analysis revealed prominent activation of resident microglia and infiltrating monocytes that were accompanied by an expression of pro-inflammatory cytokines. The disease was independent of T and B cells. Importantly, unlike peripheral infection, IFN-Is modulated but did not protect from infection and lethal disease. Lack of IFN-I signaling resulted in spread of the virus, generalized inflammatory changes, and accelerated disease onset. Conclusions Using intracranial infection of immunocompetent wild-type mice with ZIKV, we demonstrate that in contrast to the peripheral immune system, the CNS is susceptible to infection and responds to ZIKV by initiating an antiviral immune response. This response is dominated by resident microglia and infiltrating monocytes and macrophages but does not require T or B cells. Unlike in the periphery, IFN-Is in the CNS cannot prevent the establishment of infection. Our findings show that ZIKV encephalitis in mice is dependent on the innate immune response, and adaptive immune cells play at most a minor role in disease pathogenesis.
topic Zika virus
Microglia
Monocyte
Neutrophil
Encephalitis
Innate immunity
url http://link.springer.com/article/10.1186/s12974-019-1566-5
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spelling doaj-448d676df21c488e9a6c3261286bc8dc2020-11-25T03:33:33ZengBMCJournal of Neuroinflammation1742-20942019-09-0116111510.1186/s12974-019-1566-5Zika virus encephalitis in immunocompetent mice is dominated by innate immune cells and does not require T or B cellsEmina Hayashida0Zheng Lung Ling1Thomas M. Ashhurst2Barney Viengkhou3So Ri Jung4Pattama Songkhunawej5Phillip K. West6Nicholas J. C. King7Markus J. Hofer8School of Life and Environmental Sciences, the Marie Bashir Institute for Infectious Diseases and Biosecurity, Charles Perkins Centre, and the Bosch Institute, The University of SydneyDiscipline of Pathology, the Marie Bashir Institute for Infectious Diseases and Biosecurity, the Bosch Institute, Charles Perkins Centre, School of Medical Sciences, Faculty of Medicine and Health, The University of SydneyDiscipline of Pathology, the Marie Bashir Institute for Infectious Diseases and Biosecurity, the Bosch Institute, Charles Perkins Centre, School of Medical Sciences, Faculty of Medicine and Health, The University of SydneySchool of Life and Environmental Sciences, the Marie Bashir Institute for Infectious Diseases and Biosecurity, Charles Perkins Centre, and the Bosch Institute, The University of SydneySchool of Life and Environmental Sciences, the Marie Bashir Institute for Infectious Diseases and Biosecurity, Charles Perkins Centre, and the Bosch Institute, The University of SydneySchool of Life and Environmental Sciences, the Marie Bashir Institute for Infectious Diseases and Biosecurity, Charles Perkins Centre, and the Bosch Institute, The University of SydneySchool of Life and Environmental Sciences, the Marie Bashir Institute for Infectious Diseases and Biosecurity, Charles Perkins Centre, and the Bosch Institute, The University of SydneyDiscipline of Pathology, the Marie Bashir Institute for Infectious Diseases and Biosecurity, the Bosch Institute, Charles Perkins Centre, School of Medical Sciences, Faculty of Medicine and Health, The University of SydneySchool of Life and Environmental Sciences, the Marie Bashir Institute for Infectious Diseases and Biosecurity, Charles Perkins Centre, and the Bosch Institute, The University of SydneyAbstract Background Until the end of the twentieth century, Zika virus (ZIKV) was thought to cause a mostly mild, self-limiting disease in humans. However, as the geographic distribution of ZIKV has shifted, so too has its pathogenicity. Modern-day ZIKV infection is now known to cause encephalitis, acute disseminated encephalomyelitis, and Guillain-Barré syndrome in otherwise healthy adults. Nevertheless, the underlying pathogenetic mechanisms responsible for this shift in virulence remain unclear. Methods Here, we investigated the contribution of the innate versus the adaptive immune response using a new mouse model involving intracranial infection of adult immunocompetent mice with a moderately low dose of ZIKV MR766. To determine the contribution of type I interferons (IFN-Is) and adaptive immune cells, we also studied mice deficient for the IFN-I receptor 1 (Ifnar1 −/− ) and recombination-activating gene 1 (Rag1 −/− ). Results We show that intracranial infection with ZIKV resulted in lethal encephalitis. In wild-type mice, ZIKV remained restricted predominantly to the central nervous system (CNS) and infected neurons, whereas astrocytes and microglia were spared. Histological and molecular analysis revealed prominent activation of resident microglia and infiltrating monocytes that were accompanied by an expression of pro-inflammatory cytokines. The disease was independent of T and B cells. Importantly, unlike peripheral infection, IFN-Is modulated but did not protect from infection and lethal disease. Lack of IFN-I signaling resulted in spread of the virus, generalized inflammatory changes, and accelerated disease onset. Conclusions Using intracranial infection of immunocompetent wild-type mice with ZIKV, we demonstrate that in contrast to the peripheral immune system, the CNS is susceptible to infection and responds to ZIKV by initiating an antiviral immune response. This response is dominated by resident microglia and infiltrating monocytes and macrophages but does not require T or B cells. Unlike in the periphery, IFN-Is in the CNS cannot prevent the establishment of infection. Our findings show that ZIKV encephalitis in mice is dependent on the innate immune response, and adaptive immune cells play at most a minor role in disease pathogenesis.http://link.springer.com/article/10.1186/s12974-019-1566-5Zika virusMicrogliaMonocyteNeutrophilEncephalitisInnate immunity

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