MEFA(多表位融合抗原)-结构疫苗学的新技术,从计算和经验免疫原性表征的证明肠毒素大肠杆菌(ETEC)粘连素MEFA。

Journal of vaccines & vaccination Pub Date : 2017-08-01 Epub Date: 2017-08-24 DOI:10.4172/2157-7560.1000367
Qiangde Duan, Kuo Hao Lee, Rahul M Nandre, Carolina Garcia, Jianhan Chen, Weiping Zhang
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引用次数: 18

摘要

疫苗开发经常遇到毒力异质性的挑战。产肠毒素大肠杆菌(ETEC)细菌产生免疫异质性毒力因子是儿童腹泻和旅行者腹泻的主要原因。目前,我们没有获得许可的针对ETEC细菌的疫苗。虽然传统方法继续取得进展,但遇到挑战,但正在探索新的计算和基于结构的方法,以加速ETEC疫苗的开发。在本研究中,我们应用结构疫苗学概念构建了一种基于结构的多表位融合抗原(MEFA),以携带七种最重要的ETEC粘附素[CFA/I, CFA/II (CS1-CS3), CFA/IV (CS4-CS6)]的代表性表位,通过计算原子建模和模拟模拟了CFA/I/II/IV MEFA的抗原结构,表征了小鼠免疫中的免疫原性,并研究了结构信息疫苗设计在ETEC疫苗开发中的潜力。有效地表达和提取了无标记重组MEFA蛋白(CFA/I/II/IV MEFA)。分子动力学模拟表明,该MEFA免疫原具有稳定的二级结构,并在蛋白表面呈现抗原表位。实验数据显示,用无标记的CFA/I/II/IV MEFA免疫小鼠产生了较强的抗原特异性抗体反应,小鼠血清抗体显著抑制了表达这7种粘附素的细菌的体外粘附。这些结果揭示了计算模拟和经验小鼠免疫之间抗原免疫原性的一致性,并表明这种无标签的CFA/I/II/IV MEFA可能是广泛保护性ETEC疫苗的抗原,这表明基于MEFA的结构疫苗学可能应用于针对ETEC和可能的其他病原体的疫苗设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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MEFA (multiepitope fusion antigen)-Novel Technology for Structural Vaccinology, Proof from Computational and Empirical Immunogenicity Characterization of an Enterotoxigenic Escherichia coli (ETEC) Adhesin MEFA.

Vaccine development often encounters the challenge of virulence heterogeneity. Enterotoxigenic Escherichia coli (ETEC) bacteria producing immunologically heterogeneous virulence factors are a leading cause of children's diarrhea and travelers' diarrhea. Currently, we do not have licensed vaccines against ETEC bacteria. While conventional methods continue to make progress but encounter challenge, new computational and structure-based approaches are explored to accelerate ETEC vaccine development. In this study, we applied a structural vaccinology concept to construct a structure-based multiepitope fusion antigen (MEFA) to carry representing epitopes of the seven most important ETEC adhesins [CFA/I, CFA/II (CS1-CS3), CFA/IV (CS4-CS6)], simulated antigenic structure of the CFA/I/II/IV MEFA with computational atomistic modeling and simulation, characterized immunogenicity in mouse immunization, and examined the potential of structure-informed vaccine design for ETEC vaccine development. A tag-less recombinant MEFA protein (CFA/I/II/IV MEFA) was effectively expressed and extracted. Molecular dynamics simulations indicated that this MEFA immunogen maintained a stable secondary structure and presented epitopes on the protein surface. Empirical data showed that mice immunized with the tagless CFA/I/II/IV MEFA developed strong antigen-specific antibody responses, and mouse serum antibodies significantly inhibited in vitro adherence of bacteria expressing these seven adhesins. These results revealed congruence of antigen immunogenicity between computational simulation and empirical mouse immunization and indicated this tag-less CFA/I/II/IV MEFA potentially an antigen for a broadly protective ETEC vaccine, suggesting a potential application of MEFA-based structural vaccinology for vaccine design against ETEC and likely other pathogens.

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