Utilizing HCoV-OC43 to better understand the neurological impact of COVID-19

IF 3.7 Q2 IMMUNOLOGY
Catherine LaCourse
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Abstract

As the COVID-19 pandemic enters its fifth year, research tools to study the SARS-CoV-2 (CoV-2) virus are critical, and many researchers have turned to another beta coronavirus: HCoV-OC43 (OC43). OC43 is a ubiquitous pathogen that now causes a common cold, but its emergence in 1890 closely coincided with and likely produced the catastrophic Russian Flu pandemic. Beyond their historical parallels, OC43 and CoV-2 share similar genetics and disease sequelae. Both viruses induce respiratory symptoms. Additionally, OC43 infection can result in acute neurological dysfunction in children, and exposure to OC43 has been linked to long-term neurological disorders in adults. Similarly, CoV-2 can produce acute neuropathology and the phenomenon of prolonged symptoms known as Long-COVID that typically impacts the brain. Mouse models have been developed to study the pathogenesis of both OC43 and CoV-2, thereby facilitating research on the neurological sequelae associated with either infection. These models have been further utilized to test therapeutic interventions against both viruses, as researchers seek to establish the potential for using OC43 as a proxy for CoV-2. Further, because mouse models of the two betacoronaviruses exhibit neurological sequelae, using OC43 likely could provide insight into the impact of COVID-19 on the brain. OC43 requires a lower biosafety level than CoV-2, which makes it accessible to more researchers resulting in expeditious scientific progress in the ongoing COVID-19 pandemic.
利用 HCoV-OC43 更好地了解 COVID-19 对神经系统的影响
随着 COVID-19 大流行进入第五个年头,研究 SARS-CoV-2 (CoV-2) 病毒的研究工具变得至关重要,许多研究人员转而研究另一种 beta 冠状病毒:HCoV-OC43(OC43)。OC43 是一种无处不在的病原体,现在会引起普通感冒,但它在 1890 年的出现与灾难性的俄罗斯流感大流行密切相关,而且很有可能是俄罗斯流感大流行的始作俑者。除了历史上的相似之处,OC43 和 CoV-2 还具有相似的遗传学和疾病后遗症。这两种病毒都会诱发呼吸道症状。此外,OC43 感染可导致儿童急性神经功能紊乱,而接触 OC43 与成人长期神经功能紊乱有关。同样,CoV-2 也会产生急性神经病理变化和被称为 Long-COVID 的长期症状,通常会影响大脑。目前已开发出小鼠模型来研究 OC43 和 CoV-2 的致病机理,从而促进了与这两种感染相关的神经系统后遗症的研究。这些模型还被进一步用于测试针对这两种病毒的治疗干预措施,因为研究人员试图确定将 OC43 作为 CoV-2 的替代物的可能性。此外,由于这两种betacoronaviruses的小鼠模型都会表现出神经系统后遗症,因此使用OC43很可能有助于深入了解COVID-19对大脑的影响。与CoV-2相比,OC43所需的生物安全级别较低,这使得更多的研究人员可以利用它,从而在正在进行的COVID-19大流行中加快科学进步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Brain, behavior, & immunity - health
Brain, behavior, & immunity - health Biological Psychiatry, Behavioral Neuroscience
CiteScore
8.50
自引率
0.00%
发文量
0
审稿时长
97 days
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