Novartis Vaccines and Diagnostics, 53100 Siena, Italy.
Cold Spring Harb Perspect Med. 2013 May 1;3(5):a012476. doi: 10.1101/cshperspect.a012476.
Advances in genomics and innovative strategies such as reverse vaccinology have changed the concepts and approaches to vaccine candidate selection and design. Genome mining and blind selection of novel antigens provide a novel route to investigate the mechanisms that underpin pathogenesis. The resulting lists of novel candidates are revealing new aspects of pathogenesis of target organisms, which in turn drives the rational design of optimal vaccine antigens. Here we use the discovery, characterization, and exploitation of fHbp, a vaccine candidate and key virulence factor of meningococcus, as an illustrative case in point. Applying genomic approaches to study both the pathogen and host will ultimately increase our fundamental understanding of pathogen biology, mechanisms responsible for the development of protective immunity, and guide next-generation vaccine design.
基因组学的进展和创新策略,如反向疫苗学,改变了疫苗候选物选择和设计的概念和方法。基因组挖掘和新型抗原的盲目选择为研究发病机制提供了新途径。由此产生的新型候选物清单揭示了目标生物体发病机制的新方面,这反过来又推动了最佳疫苗抗原的合理设计。在这里,我们以脑膜炎球菌 fHbp 的发现、特征描述和应用为例来说明这一点。应用基因组学方法来研究病原体和宿主,最终将增加我们对病原体生物学、保护性免疫发展的机制以及指导下一代疫苗设计的基本理解。