a The Pirbright Institute , Surrey , UK.
Expert Rev Vaccines. 2018 Jul;17(7):577-591. doi: 10.1080/14760584.2018.1492378. Epub 2018 Jul 26.
Lack of cross protection between foot and mouth disease (FMD) virus (FMDV) serotypes as well as incomplete protection between some subtypes of FMDV affect the application of vaccine in the field. Further, the emergence of new variant FMD viruses periodically makes the existing vaccine inefficient. Consequently, periodical vaccine strain selection either by in vivo methods or in vitro methods become an essential requirement to enable utilization of appropriate and efficient vaccines.
Here we describe the cross reactivity of the existing vaccines with the global pool of circulating viruses and the putative selected vaccine strains for targeting protection against the two major circulating serotype O and A FMD viruses for East Africa, the Middle East, South Asia and South East Asia.
Although in vivo cross protection studies are more appropriate methods for vaccine matching and selection than in vitro neutralization test or ELISA, in the face of an outbreak both in vivo and in vitro methods of vaccine matching are not easy, and time consuming. The FMDV capsid contains all the immunogenic epitopes, and therefore vaccine strain prediction models using both capsid sequence and serology data will likely replace existing tools in the future.
口蹄疫(FMDV)病毒血清型之间缺乏交叉保护,以及 FMDV 某些亚型之间的不完全保护,影响了疫苗在现场的应用。此外,新变异的 FMD 病毒的出现周期性地使现有疫苗失效。因此,定期通过体内或体外方法选择疫苗株成为利用适当和有效的疫苗的必要条件。
在这里,我们描述了现有疫苗与全球循环病毒库的交叉反应性,以及针对东非、中东、南亚和东南亚的两种主要流行血清型 O 和 A FMD 病毒的假定选择疫苗株,以提供针对保护。
尽管体内交叉保护研究比体外中和试验或 ELISA 更适合疫苗匹配和选择,但在爆发时,体内和体外的疫苗匹配方法都不容易且耗时。FMDV 衣壳包含所有免疫原性表位,因此,使用衣壳序列和血清学数据的疫苗株预测模型很可能会在未来取代现有的工具。
