利用猪抗体对经典猪瘟病毒 E2 糖蛋白进行抗原性分析,鉴定了与疫苗 C 株和中国流行的 2 群毒株抗原变异有关的残基。
Antigenic analysis of classical swine fever virus E2 glycoprotein using pig antibodies identifies residues contributing to antigenic variation of the vaccine C-strain and group 2 strains circulating in China.
机构信息
Institute of Preventive Veterinary Medicine, Zhejiang Provincial Key Laboratory of Preventive Veterinary Medicine, Zhejiang University, Hangzhou 310029, PR China.
出版信息
Virol J. 2010 Dec 31;7:378. doi: 10.1186/1743-422X-7-378.
BACKGROUND
Glycoprotein E2, the immunodominant protein of classical swine fever virus (CSFV), can induce neutralizing antibodies and confer protective immunity in pigs. Our previous phylogenetic analysis showed that subgroup 2.1 viruses branched away from subgroup 1.1, the vaccine C-strain lineage, and became dominant in China. The E2 glycoproteins of CSFV C-strain and recent subgroup 2.1 field isolates are genetically different. However, it has not been clearly demonstrated how this diversity affects antigenicity of the protein.
RESULTS
Antigenic variation of glycoprotein E2 was observed not only between CSFV vaccine C-strain and subgroup 2.1 strains, but also among strains of the same subgroup 2.1 as determined by ELISA-based binding assay using pig antisera to the C-strain and a representative subgroup 2.1 strain QZ-07 currently circulating in China. Antigenic incompatibility of E2 proteins markedly reduced neutralization efficiency against heterologous strains. Single amino acid substitutions of D705N, L709P, G713E, N723S, and S779A on C-strain recombinant E2 (rE2) proteins significantly increased heterologous binding to anti-QZ-07 serum, suggesting that these residues may be responsible for the antigenic variation between the C-strain and subgroup 2.1 strains. Notably, a G713E substitution caused the most dramatic enhancement of binding of the variant C-strain rE2 protein to anti-QZ-07 serum. Multiple sequence alignment revealed that the glutamic acid residue at this position is conserved within group 2 strains, while the glycine residue is invariant among the vaccine strains, highlighting the role of the residue at this position as a major determinant of antigenic variation of E2. A variant Simpson's index analysis showed that both codons and amino acids of the residues contributing to antigenic variation have undergone similar diversification.
CONCLUSIONS
These results demonstrate that CSFV vaccine C-strain and group 2 strains circulating in China differ in the antigenicity of their E2 glycoproteins. Systematic site-directed mutagenesis of the antigenic units has revealed residues that limit cross-reactivity. Our findings may be useful for the development of serological differential assays and improvement of immunogenicity of novel classical swine fever vaccines.
背景
猪瘟病毒(Classical swine fever virus,CSFV)的免疫显性蛋白糖蛋白 E2 可诱导猪体内中和抗体,并赋予保护性免疫。我们之前的系统发育分析表明,亚 2.1 组病毒与疫苗 C 株谱系的亚 1.1 组分离,并且在中国占据主导地位。CSFV C 株和最近亚 2.1 组田间分离株的 E2 糖蛋白在遗传上存在差异。然而,这种多样性如何影响蛋白的抗原性尚不清楚。
结果
通过 ELISA 结合试验,用猪抗 C 株和目前在中国流行的代表亚 2.1 组 QZ-07 株的血清,不仅观察到 CSFV 疫苗 C 株与亚 2.1 组毒株之间,而且还观察到相同亚 2.1 组毒株之间糖蛋白 E2 的抗原变异。E2 蛋白的抗原不兼容性显著降低了对异源株的中和效率。C 株重组 E2(rE2)蛋白上 D705N、L709P、G713E、N723S 和 S779A 单个氨基酸的取代显著增加了与抗 QZ-07 血清的异源结合,表明这些残基可能是 C 株与亚 2.1 组毒株之间抗原变异的原因。值得注意的是,G713E 取代导致变异 C 株 rE2 蛋白与抗 QZ-07 血清的结合增强最为显著。多序列比对显示,该位置的谷氨酸残基在 2 组内是保守的,而疫苗株中的甘氨酸残基是不变的,突出了该位置残基作为 E2 抗原变异的主要决定因素的作用。变异 Simpson 指数分析表明,导致抗原变异的残基的密码子和氨基酸都经历了相似的多样化。
结论
这些结果表明,CSFV 疫苗 C 株和中国流行的 2 组株在 E2 糖蛋白的抗原性上存在差异。系统的定点突变抗原单位揭示了限制交叉反应的残基。我们的研究结果可能有助于开发血清学差异检测方法,并提高新型猪瘟疫苗的免疫原性。
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