疏水性突变对凝血因子 VIIIa 结合亲和力和稳定性的作用：计算分子动力学和自由能分析。

Role of hydrophobic mutations on the binding affinity and stability of blood coagulation factor VIIIa: a computational molecular dynamics and free-energy analysis.

机构信息

Department of Chemistry, North Carolina Agricultural and Technical State University, Greensboro, NC 27411, USA.

出版信息

Biochem Biophys Res Commun. 2014 Jul 18;450(1):735-40. doi: 10.1016/j.bbrc.2014.06.043. Epub 2014 Jun 18.

DOI:10.1016/j.bbrc.2014.06.043

PMID:24952158

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4123457/

Abstract

Factor VIIIa is a non-covalently bound hetero-trimer among A1, A2 and A3-C1-C2 domains and an essential co-factor for factor IXa enzyme during proteolytic activation of factor X zymogen. The relatively weak interactions between A2 and the interface A1/A3 domains dampen the functional stability of FVIIIa in plasma and results in rapid degradation. We studied the mutational effect of three charged residues (Asp519, Glu665 and Asp666) to several hydrophobic residues by molecular dynamics simulations. Analysis of the binding free energy by MM-PBSA and MM-GBSA methods shows that the mutation of Asp519 and Glu665 residues to either Val or Ala enhance the A2 domain binding affinity in agreement with the experimental site-specific mutagenesis data. Mutation of Asp666 to Val, Tyr, Met and Phe showed largest improvement in the A2-domain binding among the eight hydrophobic mutants studied. Our studies suggest that the enrichment of hydrophobic interactions in the buried surface regions of A2 domain plays crucial role in improving the overall stability of FVIIIa.

摘要

VIIIa 因子是 A1、A2 和 A3-C1-C2 结构域之间非共价结合的异源三聚体，是因子 X 酶原蛋白水解激活过程中因子 IXa 酶的必需辅因子。A2 与 A1/A3 结构域界面之间的相互作用较弱，降低了 FVIIIa 在血浆中的功能稳定性，导致其快速降解。我们通过分子动力学模拟研究了三个带电残基（Asp519、Glu665 和 Asp666）突变为几个疏水性残基对 FVIIIa 的影响。通过 MM-PBSA 和 MM-GBSA 方法分析结合自由能表明，Asp519 和 Glu665 残基突变为 Val 或 Ala 均增强了 A2 结构域的结合亲和力，与实验的定点突变数据一致。与研究的八个疏水性突变体相比，Asp666 突变为 Val、Tyr、Met 和 Phe 时，A2 结构域的结合得到了最大改善。我们的研究表明，A2 结构域埋藏表面区域疏水性相互作用的富集在提高 FVIIIa 的整体稳定性方面起着关键作用。

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