Department of Pathology, Faculty of Veterinary Medicine, University of Liège, Liège, Belgium.
J Interferon Cytokine Res. 2012 Jul;32(7):332-7. doi: 10.1089/jir.2011.0123. Epub 2012 Mar 2.
The respiratory syncytial virus (RSV) is a major pathogen of the human species. This pneumovirus is a prominent cause of airway morbidity in children and maintains an excessive hospitalization rate despite decades of research. As involvement of a genetic vulnerability is a possibility supported by recent data, we addressed the question of whether the Mx gene products, the typical target of which consists in single-stranded negative-polarity RNA viruses, could alter the course of pneumovirus-associated disease in vivo. Wild-type and Bos taurus Mx1-expressing transgenic FVB/J mice were inoculated with the mouse counterpart and closest phylogenetic relative of RSV, pneumonia virus of mice. Survival data and follow-up of body weight, histological scores, lung virus spread, and lung viral load unequivocally showed that the viral infection was severely repressed in Mx-transgenic mice, thus suggesting that pneumoviruses belong to the antiviral spectrum of mammalian Mx GTPases. Elucidating the underlying mechanisms at the molecular level could reveal critical information for the development of new anti-RSV molecules.
呼吸道合胞病毒(RSV)是人类的主要病原体。这种肺炎病毒是儿童气道发病的主要原因,尽管已经进行了数十年的研究,但仍保持着过高的住院率。由于最近的数据表明遗传易感性的参与是一种可能性,因此我们探讨了 Mx 基因产物(其典型靶标是单链负链 RNA 病毒)是否会改变体内肺炎病毒相关疾病的进程。野生型和牛 Mx1 表达的转基因 FVB/J 小鼠用鼠科对应物和 RSV 最近的系统发育相关物,鼠肺炎病毒进行了接种。生存数据和体重、组织学评分、肺部病毒传播和肺部病毒载量的后续检测结果均表明,Mx 转基因小鼠中的病毒感染受到严重抑制,这表明肺炎病毒属于哺乳动物 Mx GTPases 的抗病毒谱。在分子水平上阐明潜在机制可以为开发新的抗 RSV 分子提供关键信息。
