寨卡病毒诱导的兴奋亢进先于小鼠原代神经元死亡。

Zika virus-induced hyper excitation precedes death of mouse primary neuron.

机构信息

CSIRO Health and Biosecurity, Australian Animal Health Laboratory, Geelong, Australia.

Institute for Intelligent Systems Research and Innovation (IISRI), Deakin University, Geelong, Australia.

出版信息

Virol J. 2018 Apr 27;15(1):79. doi: 10.1186/s12985-018-0989-4.

DOI:10.1186/s12985-018-0989-4

PMID:29703263

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5922018/

Abstract

BACKGROUND

Zika virus infection in new born is linked to congenital syndromes, especially microcephaly. Studies have shown that these neuropathies are the result of significant death of neuronal progenitor cells in the central nervous system of the embryo, targeted by the virus. Although cell death via apoptosis is well acknowledged, little is known about possible pathogenic cellular mechanisms triggering cell death in neurons.

METHODS

We used in vitro embryonic mouse primary neuron cultures to study possible upstream cellular mechanisms of cell death. Neuronal networks were grown on microelectrode array and electrical activity was recorded at different times post Zika virus infection. In addition to this method, we used confocal microscopy and Q-PCR techniques to observe morphological and molecular changes after infection.

RESULTS

Zika virus infection of mouse primary neurons triggers an early spiking excitation of neuron cultures, followed by dramatic loss of this activity. Using NMDA receptor antagonist, we show that this excitotoxicity mechanism, likely via glutamate, could also contribute to the observed nervous system defects in human embryos and could open new perspective regarding the causes of adult neuropathies.

CONCLUSIONS

This model of excitotoxicity, in the context of neurotropic virus infection, highlights the significance of neuronal activity recording with microelectrode array and possibility of more than one lethal mechanism after Zika virus infection in the nervous system.

摘要

背景

Zika 病毒感染新生儿与先天性综合征有关，尤其是小头症。研究表明，这些神经病变是病毒靶向胚胎中枢神经系统中大量神经元祖细胞死亡的结果。尽管细胞凋亡导致的细胞死亡是众所周知的，但对于可能引发神经元细胞死亡的致病细胞机制知之甚少。

方法

我们使用体外培养的胚胎小鼠原代神经元来研究细胞死亡的可能上游细胞机制。神经元网络在微电极阵列上生长，并在 Zika 病毒感染后不同时间记录电活动。除了这种方法，我们还使用共聚焦显微镜和 Q-PCR 技术观察感染后的形态和分子变化。

结果

Zika 病毒感染小鼠原代神经元会引发神经元培养物的早期尖峰兴奋，随后这种活动急剧丧失。使用 NMDA 受体拮抗剂，我们表明这种兴奋性毒性机制可能通过谷氨酸也有助于解释人类胚胎中观察到的神经系统缺陷，并为 Zika 病毒感染后成人神经病变的原因提供新的视角。

结论

在神经嗜性病毒感染的情况下，这种兴奋性毒性模型突出了使用微电极阵列进行神经元活动记录的重要性，并且在神经系统中可能存在 Zika 病毒感染后的不止一种致死机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/529a/5922018/dce1ff6e36cd/12985_2018_989_Fig1_HTML.jpg

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寨卡病毒诱导的兴奋亢进先于小鼠原代神经元死亡。

Zika virus-induced hyper excitation precedes death of mouse primary neuron.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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