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感染表达糖蛋白I和糖蛋白E的马疱疹病毒1型KyA重组毒株的小鼠的脑膜脑炎

Meningoencephalitis in mice infected with an equine herpesvirus 1 strain KyA recombinant expressing glycoprotein I and glycoprotein E.

作者信息

Frampton Arthur R, Smith Patrick M, Zhang Yunfei, Grafton Warren D, Matsumura Tomio, Osterrieder Nikolaus, O'Callaghan Dennis J

机构信息

Center for Molecular and Tumor Virology, Louisiana State University Health Sciences Center, Shreveport 71130, USA.

出版信息

Virus Genes. 2004 Aug;29(1):9-17. doi: 10.1023/B:VIRU.0000032785.19420.14.

DOI:10.1023/B:VIRU.0000032785.19420.14
PMID:15215680
Abstract

One of the consequences of equine herpesvirus 1 (EHV-1) infection in the natural host is a neurological disease that can lead to paralysis. The pathology associated with EHV-1-induced neurological disease includes vasculitis of the small blood vessels within the central nervous system and subsequent damage to the surrounding neural tissue. In a previous study, an EHV-1 recombinant KyA virus (KgI/gE/75) was generated in which the sequences encoding glycoprotein I (gI) and glycoprotein E (gE) were repaired [Frampton et al. 2002 (Virus Research 90: 287-301)] using genes of the pathogenic EHV-1 strain 89c25. In contrast to the parental KyA virus that lacks gI and gE, the recombinant KgI/gE/75 was able to spread to the brains of CBA mice after intranasal infection. Infection resulted in a meningoencephalitis characterized by lymphocytic cuffing of small blood vessels within the brain, consistent with that observed in EHV-1-infected horses exhibiting neurological signs. KgI/gE/75 was able to elicit cytopathology in the lung prior to spread to the brain. However, like the attenuated KyA strain, KgI/gE/75 did not persist in the lung and was completely cleared from lung tissue by day 5 postinfection. We propose that gI and gE are neurovirulence factors for EHV-1, and that the CBA mouse model can be extended to study neurologic sequelae resulting after EHV-1 infection.

摘要

马疱疹病毒1型(EHV-1)在天然宿主中感染的后果之一是一种可导致麻痹的神经疾病。与EHV-1诱导的神经疾病相关的病理学包括中枢神经系统内小血管的血管炎以及随后对周围神经组织的损伤。在先前的一项研究中,构建了一种EHV-1重组KyA病毒(KgI/gE/75),其中编码糖蛋白I(gI)和糖蛋白E(gE)的序列使用致病性EHV-1毒株89c25的基因进行了修复[Frampton等人,2002年(《病毒研究》90:287-301)]。与缺乏gI和gE的亲本KyA病毒相比,重组KgI/gE/75在鼻内感染后能够扩散到CBA小鼠的大脑。感染导致脑膜脑炎,其特征是脑内小血管周围出现淋巴细胞套叠,这与在表现出神经症状的EHV-1感染马匹中观察到的情况一致。KgI/gE/75在扩散到大脑之前能够在肺部引发细胞病理学变化。然而,与减毒的KyA毒株一样,KgI/gE/75在肺部不会持续存在,并且在感染后第5天从肺组织中完全清除。我们提出gI和gE是EHV-1的神经毒力因子,并且CBA小鼠模型可扩展用于研究EHV-1感染后产生的神经后遗症。

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2
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