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雪貂感染 H5N1 病毒的神经毒力是由在不同的神经细胞区域内多处复制所介导的。

Neurovirulence of H5N1 infection in ferrets is mediated by multifocal replication in distinct permissive neuronal cell regions.

机构信息

Infectious Diseases Program, Lovelace Respiratory Research Institute, Albuquerque, New Mexico, USA.

出版信息

PLoS One. 2012;7(10):e46605. doi: 10.1371/journal.pone.0046605. Epub 2012 Oct 8.

DOI:10.1371/journal.pone.0046605
PMID:23056366
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3466300/
Abstract

Highly pathogenic avian influenza A (HPAI), subtype H5N1, remains an emergent threat to the human population. While respiratory disease is a hallmark of influenza infection, H5N1 has a high incidence of neurological sequelae in many animal species and sporadically in humans. We elucidate the temporal/spatial infection of H5N1 in the brain of ferrets following a low dose, intranasal infection of two HPAI strains of varying neurovirulence and lethality. A/Vietnam/1203/2004 (VN1203) induced mortality in 100% of infected ferrets while A/Hong Kong/483/1997 (HK483) induced lethality in only 20% of ferrets, with death occurring significantly later following infection. Neurological signs were prominent in VN1203 infection, but not HK483, with seizures observed three days post challenge and torticollis or paresis at later time points. VN1203 and HK483 replication kinetics were similar in primary differentiated ferret nasal turbinate cells, and similar viral titers were measured in the nasal turbinates of infected ferrets. Pulmonary viral titers were not different between strains and pathological findings in the lungs were similar in severity. VN1203 replicated to high titers in the olfactory bulb, cerebral cortex, and brain stem; whereas HK483 was not recovered in these tissues. VN1203 was identified adjacent to and within the olfactory nerve tract, and multifocal infection was observed throughout the frontal cortex and cerebrum. VN1203 was also detected throughout the cerebellum, specifically in Purkinje cells and regions that coordinate voluntary movements. These findings suggest the increased lethality of VN1203 in ferrets is due to increased replication in brain regions important in higher order function and explains the neurological signs observed during H5N1 neurovirulence.

摘要

高致病性禽流感 A(HPAI)亚型 H5N1 仍然是对人类构成的紧急威胁。虽然呼吸道疾病是流感感染的标志,但 H5N1 在许多动物物种中具有较高的神经后遗症发生率,在人类中也有零星发生。我们阐明了两种神经毒力和致死力不同的高致病性禽流感毒株通过低剂量鼻腔感染雪貂后,H5N1 在大脑中的时空感染情况。A/Vietnam/1203/2004(VN1203)感染导致 100%的感染雪貂死亡,而 A/Hong Kong/483/1997(HK483)感染仅导致 20%的雪貂死亡,且感染后死亡时间明显延迟。VN1203 感染会引起明显的神经症状,但 HK483 感染则不会,感染后第三天观察到癫痫发作,随后出现斜颈或瘫痪。VN1203 和 HK483 在原代分化的雪貂鼻甲骨细胞中的复制动力学相似,感染雪貂的鼻甲骨中测量到的病毒滴度也相似。两种毒株在肺部的病毒滴度没有差异,肺部的病理发现严重程度相似。VN1203 在嗅球、大脑皮层和脑干中复制到高滴度;而 HK483 则无法在这些组织中回收。VN1203 紧邻嗅神经束被鉴定出来,在整个额叶皮层和大脑中观察到多灶性感染。VN1203 还在整个小脑中被检测到,特别是在浦肯野细胞和协调自主运动的区域。这些发现表明,VN1203 在雪貂中的致死率增加是由于在对高级功能很重要的大脑区域中的复制增加所致,并解释了在 H5N1 神经毒力期间观察到的神经症状。

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