Boukhvalova Marina S, Prince Gregory A, Blanco Jorge C G
Virion Systems Inc, Rockville, MD 20850, USA.
Biologicals. 2009 Jun;37(3):152-9. doi: 10.1016/j.biologicals.2009.02.017. Epub 2009 Apr 25.
Development of successful vaccines against human infectious diseases depends on using appropriate animal models for testing vaccine efficacy and safety. For some viral infections the task is further complicated by the frequently changing genetic make-up of the virus, as in the case of influenza, or by the existence of the little-understood phenomenon of vaccine-enhanced disease, as in the case of respiratory syncytial virus (RSV). The cotton rat Sigmodon hispidus has been used for years as an excellent small animal model of the RSV vaccine-enhanced disease. Recently, using cotton rats, we have demonstrated that vaccination against another paramyxovirus, human metapneumovirus (hMPV), can also lead to vaccine-enhanced disease. In addition to the study of paramyxoviruses, S. hispidus presents important advantages for the study of orthomyxoviruses such as influenza. The cotton rat is susceptible to infection with unadapted human influenza strains, and heterosubtypic immunity to influenza can be evoked in S. hispidus. The mechanisms of influenza, RSV, and hMPV pathogenesis and immunity can now be investigated in the cotton rat with the development of species-specific reagents for this animal model.
研发成功的人类传染病疫苗依赖于使用合适的动物模型来测试疫苗的有效性和安全性。对于某些病毒感染,由于病毒的基因组成经常变化,如流感病毒,或者存在如呼吸道合胞病毒(RSV)那样人们了解甚少的疫苗增强疾病现象,使得这项任务变得更加复杂。棉鼠(Sigmodon hispidus)多年来一直被用作研究RSV疫苗增强疾病的优秀小动物模型。最近,我们利用棉鼠证明,针对另一种副粘病毒——人偏肺病毒(hMPV)进行疫苗接种也会导致疫苗增强疾病。除了用于研究副粘病毒外,棉鼠在研究如流感病毒等正粘病毒方面也具有重要优势。棉鼠易感染未经适应的人类流感毒株,并且可以在棉鼠中引发对流感的异源亚型免疫。随着针对这种动物模型的物种特异性试剂的开发,现在可以在棉鼠中研究流感病毒、RSV和hMPV的发病机制及免疫情况。