开发人类冠状病毒 NL63 感染的小鼠模型:与鼻病毒-A1B 的比较以及之前鼻病毒感染的影响。

IF 3.6 2区 医学 Q1 PHYSIOLOGY
J Kelley Bentley, Jordan E Kreger, Haley A Breckenridge, Shilpi Singh, Jing Lei, Yiran Li, Susan C Baker, Carey N Lumeng, Marc B Hershenson
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引用次数: 0

摘要

人类冠状病毒(HCoV)-NL63 会导致人类呼吸道感染,并利用血管紧张素转换酶 2(ACE2)作为受体。我们试图建立一个 HCoV-NL63 小鼠模型,并确定之前的 RV-A1B 感染是否会影响 HCoV-NL63 的复制。HCoV-NL63 在表达人类 ACE2 的 LLC-MK2 细胞中繁殖。RV-A1B 在 HeLa-H1 细胞中生长。用假的 LLC-MK2 细胞上清或 1 x 105 TCID50 单位的 HCoV-NL63 经鼻感染 C57BL6/J 或表达人类 ACE2 的转基因小鼠。野生型小鼠用 1 x 106 PFU RV-A1B 感染。通过新一代测序和 qPCR 评估肺部的 vRNA、支气管肺泡灌洗液 (BAL) 细胞、组织学、HCoV-NL63 非结构蛋白 3 (nsp3) 和宿主基因表达。为了评估连续感染,小鼠先感染 RV-A1B,四天后再感染 HCoV-NL63。我们报告说,感染 HCoV-NL63 的 hACE2 小鼠显示出复制感染的证据,其 vRNA、BAL 中性粒细胞和淋巴细胞、支气管周围和血管周围浸润以及 nsp3 表达水平均有所增加。病毒复制在感染三天后达到高峰,炎症在感染六天后持续存在。感染了 HCoV-NL63 的 hACE2 小鼠显示 IFNs、IFN 刺激蛋白和促炎细胞因子的 mRNA 表达增加。在感染 HCoV-NL63 前四天感染 RV-A1B 可显著降低 HCoV-NL63 vRNA 水平和气道炎症。与假治疗小鼠相比,在感染 HCoV-NL63 前感染 RV-A1B 的小鼠抗病毒蛋白表达量增加。总之,我们建立了一种以相对持久的病毒复制和炎症为特征的 HCoV-NL63 复制感染小鼠模型。事先感染 RV-A1B 可减少 HCoV-NL63 的复制和气道炎症,这表明病毒干扰。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Developing a mouse model of human coronavirus NL63 infection: comparison with rhinovirus-A1B and effects of prior rhinovirus infection.

Human coronavirus (HCoV)-NL63 causes respiratory tract infections in humans and uses angiotensin-converting enzyme 2 (ACE2) as a receptor. We sought to establish a mouse model of HCoV-NL63 and determine whether prior rhinovirus (RV)-A1B infection affected HCoV-NL63 replication. HCoV-NL63 was propagated in LLC-MK2 cells expressing human ACE2. RV-A1B was grown in HeLa-H1 cells. C57BL6/J or transgenic mice expressing human ACE2 were infected intranasally with sham LLC-MK2 cell supernatant or 1 × 105 tissue culture infectious dose (TCID50) units HCoV-NL63. Wild-type mice were infected with 1 × 106 plaque-forming units (PFU) RV-A1B. Lungs were assessed for vRNA, bronchoalveolar lavage (BAL) cells, histology, HCoV-NL63 nonstructural protein 3 (nsp3), and host gene expression by next-generation sequencing and qPCR. To evaluate sequential infections, mice were infected with RV-A1B followed by HCoV-NL63 infection 4 days later. We report that hACE2 mice infected with HCoV-NL63 showed evidence of replicative infection with increased levels of vRNA, BAL neutrophils and lymphocytes, peribronchial and perivascular infiltrates, and expression of nsp3. Viral replication peaked 3 days after infection and inflammation persisted 6 days after infection. HCoV-NL63-infected hACE2 mice showed increased mRNA expression of IFNs, IFN-stimulated proteins, and proinflammatory cytokines. Infection with RV-A1B 4 days before HCoV-NL63 significantly decreased both HCoV-NL63 vRNA levels and airway inflammation. Mice infected with RV-A1B prior to HCoV-NL63 showed increased expression of antiviral proteins compared with sham-treated mice. In conclusion, we established a mouse model of HCoV-NL63 replicative infection characterized by relatively persistent viral replication and inflammation. Prior infection with RV-A1B reduced HCoV-NL63 replication and airway inflammation, indicative of viral interference.NEW & NOTEWORTHY We describe a mouse model of human coronavirus (HCoV) infection. Infection of transgenic mice expressing human angiotensin-converting enzyme 2 (ACE2) with HCoV-NL63 produced a replicative infection with peribronchial inflammation and nonstructural protein 3 expression. Mice infected with RV-A1B 4 days before HCoV-NL63 showed decreased HCoV-NL63 replication and airway inflammation and increased expression of antiviral proteins compared with sham-treated mice. This research may shed light on human coronavirus infections, viral interference, and viral-induced asthma exacerbations.

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来源期刊
CiteScore
9.20
自引率
4.10%
发文量
146
审稿时长
2 months
期刊介绍: The American Journal of Physiology-Lung Cellular and Molecular Physiology publishes original research covering the broad scope of molecular, cellular, and integrative aspects of normal and abnormal function of cells and components of the respiratory system. Areas of interest include conducting airways, pulmonary circulation, lung endothelial and epithelial cells, the pleura, neuroendocrine and immunologic cells in the lung, neural cells involved in control of breathing, and cells of the diaphragm and thoracic muscles. The processes to be covered in the Journal include gas-exchange, metabolic control at the cellular level, intracellular signaling, gene expression, genomics, macromolecules and their turnover, cell-cell and cell-matrix interactions, cell motility, secretory mechanisms, membrane function, surfactant, matrix components, mucus and lining materials, lung defenses, macrophage function, transport of salt, water and protein, development and differentiation of the respiratory system, and response to the environment.
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