Morsczeck C, Prokhorova T, Sigh J, Pfeiffer M, Bille-Nielsen M, Petersen J, Boysen A, Kofoed T, Frimodt-Møller N, Nyborg-Nielsen P, Schrotz-King P
ACE BioSciences, Drug Discovery, Odense, Denmark.
Clin Microbiol Infect. 2008 Jan;14(1):74-81. doi: 10.1111/j.1469-0691.2007.01878.x. Epub 2007 Nov 22.
Two formulations of pneumococcal vaccines are currently available to prevent invasive disease in adults and children. However, these vaccines will not protect against the majority of Streptococcus pneumoniae serotypes. The use of highly conserved cell-wall-associated proteins in vaccines may circumvent this problem. A proteomics approach was used to identify 270 S. pneumoniae cell-wall-associated proteins, which were then screened in a process that included in-silico, in-vitro and in-vivo validation criteria. Five potential candidates for inclusion in a vaccine were selected, expressed in Escherichia coli, and purified for use in immunisation experiments. These proteins were detected in at least 40 different serotypes of S. pneumoniae, and were expressed in S. pneumoniae isolates causing infection. Two of the five candidate proteins, the putative lipoate protein ligase (Lpl) and the ClpP protease, resulted in a reduced CFU titre and a trend towards reduced mortality in an animal sepsis model for investigating new S. pneumoniae protein vaccines.
目前有两种肺炎球菌疫苗制剂可用于预防成人和儿童的侵袭性疾病。然而,这些疫苗无法抵御大多数肺炎链球菌血清型。在疫苗中使用高度保守的细胞壁相关蛋白可能会解决这一问题。采用蛋白质组学方法鉴定出270种肺炎链球菌细胞壁相关蛋白,然后在一个包括计算机模拟、体外和体内验证标准的过程中进行筛选。选择了五种可能用于疫苗的候选蛋白,在大肠杆菌中表达并纯化,用于免疫实验。这些蛋白在至少40种不同血清型的肺炎链球菌中被检测到,并在引起感染的肺炎链球菌分离株中表达。在用于研究新型肺炎链球菌蛋白疫苗的动物败血症模型中,五种候选蛋白中的两种,即假定的硫辛酸蛋白连接酶(Lpl)和ClpP蛋白酶,导致菌落形成单位滴度降低,并呈现死亡率降低的趋势。
