Ramos Celso R R, Spisni Alberto, Oyama Sérgio, Sforça Mauricio L, Ramos Henrique R, Vilar Mônica M, Alves Adriana C, Figueredo Rita C R, Tendler Míriam, Zanchin Nilson I T, Pertinhez Thelma A, Ho Paulo Lee
Biotechnology Center, Butantan Institute, Av. Vital Brasil 1500, 05503-900, São Paulo, SP, Brazil.
Biochim Biophys Acta. 2009 Apr;1794(4):655-62. doi: 10.1016/j.bbapap.2008.12.010. Epub 2008 Dec 25.
The Schistosoma mansoni fatty acid binding protein (FABP), Sm14, is a vaccine candidate against, S. mansoni and F. hepatica. Previously, we demonstrated the importance of a correct fold to achieve protection in immunized animals after cercariae challenge [[10]. C.R.R. Ramos, R.C.R. Figueredo, T.A. Pertinhez, M.M. Vilar, A.L.T.O. Nascimento, M. Tendler, I. Raw, A. Spisni, P.L. Ho, Gene structure and M20T polymorphism of the Schistosoma mansoni Sm14 fatty acid-binding protein: structural, functional and immunoprotection analysis. J. Biol. Chem. 278 (2003) 12745-12751.]. Here we show that the reduction of vaccine efficacy over time is due to protein dimerization and subsequent aggregation. We produced the mutants Sm14-M20(C62S) and Sm14-M20(C62V) that, as expected, did not dimerize in SDS-PAGE. Molecular dynamics calculations and unfolding experiments highlighted a higher structural stability of these mutants with respect to the wild-type. In addition, we found that the mutated proteins, after thermal denaturation, refolded to their active native molecular architecture as proved by the recovery of the fatty acid binding ability. Sm14-M20(C62V) turned out to be the more stable form over time, providing the basis to determine the first 3D solution structure of a Sm14 protein in its apo-form. Overall, Sm14-M20(C62V) possesses an improved structural stability over time, an essential feature to preserve its immunization capability and, in experimentally immunized animals, it exhibits a protection effect against S. mansoni cercariae infections comparable to the one obtained with the wild-type protein. These facts indicate this protein as a good lead molecule for large-scale production and for developing an effective Sm14 based anti-helminthes vaccine.
曼氏血吸虫脂肪酸结合蛋白(FABP)Sm14是一种针对曼氏血吸虫和肝片吸虫的候选疫苗。此前,我们已证明正确折叠对于在尾蚴攻击后使免疫动物获得保护的重要性[[10]。C.R.R.拉莫斯、R.C.R.菲格雷多、T.A.佩尔蒂内斯、M.M.维拉尔、A.L.T.O.纳西门托、M.滕德勒、I.劳、A.斯皮斯尼、P.L.何,曼氏血吸虫Sm14脂肪酸结合蛋白的基因结构和M20T多态性:结构、功能和免疫保护分析。《生物化学杂志》278(2003)12745 - 12751。]。在此我们表明,疫苗效力随时间降低是由于蛋白质二聚化及随后的聚集。我们制备了突变体Sm14 - M20(C62S)和Sm14 - M20(C62V),正如预期的那样,它们在SDS - PAGE中不会二聚化。分子动力学计算和去折叠实验突出了这些突变体相对于野生型具有更高的结构稳定性。此外,我们发现,经热变性后,突变蛋白重新折叠成其活性天然分子结构,这通过脂肪酸结合能力的恢复得以证明。结果表明,随着时间推移,Sm14 - M20(C62V)是更稳定的形式,为确定脱辅基形式的Sm14蛋白的首个三维溶液结构提供了基础。总体而言,Sm14 - M20(C62V)随时间推移具有更高的结构稳定性,这是保持其免疫能力的关键特征,并且在实验性免疫动物中,它对曼氏血吸虫尾蚴感染表现出的保护效果与野生型蛋白相当。这些事实表明该蛋白是大规模生产以及开发基于Sm14的有效抗蠕虫疫苗的良好先导分子。
