IP-10 Promotes Blood–Brain Barrier Damage by Inducing Tumor Necrosis Factor Alpha Production in Japanese Encephalitis

Wang, Ke; Wang, Haili; Lou, Wen-Juan; Ma, Longhuan; Li, Yunchuan; Zhang, Nan; Wang, Chong; Li, Fang; Awais, Muhammad; Cao, Shengbo; She, Ruiping; Fu, Zhen F.; Cui, Min

doi:10.3389/fimmu.2018.01148

Cited by 82 publications

(78 citation statements)

References 55 publications

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“…In this study, we found that the chemoattractive molecules CXCL10, CCL5, and CCL2 were potently released by the apical compartment upon ZIKV hBLEC infection, suggesting that circulating leukocytes could be attracted to the infected BBB. CXCL10 is emerging as a key inflammatory molecule expressed during neuroinflammatory processes such as autoimmune disorders (e.g., multiple sclerosis [55] or encephalitis [47,56]). It is involved in the recruitment of T cells to the BBB and was proposed to favor inflammatory cell recruitment into the CNS following rabies virus infection (56).…”

Section: Discussionmentioning

confidence: 99%

“…Recent studies and our results suggest that ZIKV can directly infect BBB cells but may not have a strong deleterious effect on BBB integrity and that viral particles could be released basolaterally and reach the CNS ( 21 ). Other arboviruses such as WNV and JEV lead to endothelium integrity impairment and inflammatory molecule production that will disrupt BBB integrity and further allow virus CNS access ( 19 , 47 ). Among these cytokines, tumor necrosis factor alpha (TNF-α), IL-1β, transforming growth factor beta (TGF-β), and IL-6 have been shown to modulate BBB permeability by several mechanisms, including downregulation or relocalization of junction proteins such as occludin and ZO-1 ( 48 , 49 ).…”

Section: Discussionmentioning

confidence: 99%

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Zika Virus Infection Promotes Local Inflammation, Cell Adhesion Molecule Upregulation, and Leukocyte Recruitment at the Blood-Brain Barrier

Clé

Desmetz

Barthélémy

et al. 2020

mBio

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The blood-brain barrier (BBB) largely prevents toxins and pathogens from accessing the brain. Some viruses have the ability to cross this barrier and replicate in the central nervous system (CNS). Zika virus (ZIKV) was responsible in 2015 to 2016 for a major epidemic in South America and was associated in some cases with neurological impairments. Here, we characterized some of the mechanisms behind its neuroinvasion using an innovative in vitro human BBB model. ZIKV efficiently replicated, was released on the BBB parenchyma side, and triggered subtle modulation of BBB integrity as well as an upregulation of inflammatory and cell adhesion molecules (CAMs), which in turn favored leukocyte recruitment. Finally, we showed that ZIKV-infected mouse models displayed similar CAM upregulation and that soluble CAMs were increased in plasma samples from ZIKV-infected patients. Our observations suggest a complex interplay between ZIKV and the BBB, which may trigger local inflammation, leukocyte recruitment, and possible cerebral vasculature impairment. IMPORTANCE Zika virus (ZIKV) can be associated with neurological impairment in children and adults. To reach the central nervous system, viruses have to cross the blood-brain barrier (BBB), a multicellular system allowing a tight separation between the bloodstream and the brain. Here, we show that ZIKV infects cells of the BBB and triggers a subtle change in its permeability. Moreover, ZIKV infection leads to the production of inflammatory molecules known to modulate BBB integrity and participate in immune cell attraction. The virus also led to the upregulation of cellular adhesion molecules (CAMs), which in turn favored immune cell binding to the BBB and potentially increased infiltration into the brain. These results were also observed in a mouse model of ZIKV infection. Furthermore, plasma samples from ZIKV-infected patients displayed an increase in CAMs, suggesting that this mechanism could be involved in neuroinflammation triggered by ZIKV.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Zika Virus Infection Promotes Local Inflammation, Cell Adhesion Molecule Upregulation, and Leukocyte Recruitment at the Blood-Brain Barrier

Clé

Desmetz

Barthélémy

et al. 2020

mBio

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“…Our previous results revealed that JEV itself caused no signi cant damage to the tight junctions of endothelial cells during early infection, which was different to other neurotropic Flaviviridae such as WNV [6,61,62]. On the contrary, the JEV-infected brain supernatant containing MMPs, IL-6, TNF-, CCL-2 and other soluble pro-in ammatory factors, dramatically destroyed the integrity of endothelial cells monolayer in vitro, supporting that the systemic in ammatory response breakdown the BBB during early infection [8,11,63].…”

Section: Discussionmentioning

confidence: 83%

Brain Microvascular Endothelial Cells-Derived HMGB1 Facilitates Monocyte Transendothelial Migration Favoring JEV Neuroinvasion

Zou

Xiong

et al. 2020

Preprint

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Background: Infection with the Japanese encephalitis virus (JEV) induced high morbidity and mortality, even caused permanent neurological sequelae. However, the pathways and mechanisms of JEV invasion into the central nervous system (CNS) remain elusive. It is confirmed that extracellular HMGB1 facilitates immune cells transendothelial migration. Furthermore, it is observed that the migration of immune cells into the CNS dramatically increased during JEV infection which may benefit to viral clearance, but paradoxically accompanied by the expedite onset of Japanese encephalitis (JE) in advance. Thus, exploration of JEV neuroinvasion pathways is important for pathogenesis and prevention of JE.Methods: Brain microvascular endothelial cells were utilized for the detection of HMGB1 release in vitro. The blood-brain barrier (BBB) monolayer model (brain microvascular endothelial cells) and recombinant HMGB1 were applied for the measurement of endothelial cell activation and cells adhesion, the integrity of the BBB and the interaction with the immune cells. A genetically modified JEV expressing EGFP (EGFP-JEV) was used to trace the transmigration of JEV-infected immune cells crossing the BBB to mimic the process of neuroinfection.Results: JEV has the characteristic of neurotropism, causing HMGB1 released from BMEC and increasing adhesion molecules. BEMC-derived HMGB1 enhances leukocyte-endothelium adhesion, facilitating the transendothelial migration of JEV-infected monocytes across the BBB entry into the CNS. Thus, JEV successfully utilized the monocyte as a “Trojan horse” to spread the virus to the brain, expanding the brain infection, leading the acceleration of JE onset.Conclusion: JEV-infected monocytes, acting as “Trojan horse”, migrate to the brain, which was facilitated by BMEC-derived HMGB1, contributing to JEV neuroinvasion, and leading neuroinflammation and pathological changes of JE.

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“…While in vivo approaches are useful to understand the systemic viral disease, in vitro models are also useful because they allow studying the molecular mechanisms that govern viral pathogenesis. In this regard, previous approaches have been used to characterize JEV neuroinvasion properties at late times of infection, mainly 24 hpi or later [30, 33–35]. However, knowledge relative to the early times of JEV contact with the BBB is poor, if not null.…”

Section: Discussionmentioning

confidence: 99%

Comparative analysis of neuroinvasion by Japanese encephalitis virulent and vaccine strains in anin cellulomodel of human blood-brain barrier

Khou

Díaz-Salinas

Costa

et al. 2019

Preprint

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27Japanese encephalitis virus (JEV) is the major cause of viral encephalitis 28 in South East Asia. It has been suggested that JEV gets access to the central 29 nervous system (CNS) as a consequence of a preceding inflammatory process 30 which leads to the blood-brain barrier (BBB) disruption and viral neuroinvasion. 31However, what happens at early times of JEV contact with the BBB is poorly 32 understood. In the present work, we evaluated the ability of both a virulent and 33 a vaccine strain of JEV (JEV RP9 and SA14-14-2, respectively) to cross an in 34 cellulo human BBB model consisting of hCMEC/D3 human endothelial cells 35 cultivated on permeable inserts above SK-N-SH human neuroblastoma cells. 36Using this system, we demonstrated that both JEV RP9 and SA14-14-2 are 37 able to cross the BBB without disrupting it at early times post-addition. 38Furthermore, this BBB model was able to discriminate between the virulent RP9 39 and the vaccine SA14-14-2 strains, as demonstrated by the presence of almost 40 10 times more RP9 infectious particles that crossed the BBB than SA14-14 41 particles at a high MOI. Besides contributing to the understanding of early 42 events in JEV neuroinvasion, this in cellulo BBB model represents a suitable 43and useful system to study the viral determinants of JEV neuroinvasiveness and 44 the molecular mechanisms by which this flavivirus crosses the BBB at early 45 times of neuroinvasion. 46 47 48 49 50

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IP-10 Promotes Blood–Brain Barrier Damage by Inducing Tumor Necrosis Factor Alpha Production in Japanese Encephalitis

Cited by 82 publications

References 55 publications

Zika Virus Infection Promotes Local Inflammation, Cell Adhesion Molecule Upregulation, and Leukocyte Recruitment at the Blood-Brain Barrier

Zika Virus Infection Promotes Local Inflammation, Cell Adhesion Molecule Upregulation, and Leukocyte Recruitment at the Blood-Brain Barrier

Brain Microvascular Endothelial Cells-Derived HMGB1 Facilitates Monocyte Transendothelial Migration Favoring JEV Neuroinvasion

Comparative analysis of neuroinvasion by Japanese encephalitis virulent and vaccine strains in anin cellulomodel of human blood-brain barrier

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