人血清淀粉样蛋白 A 纤维的稳定性。

Stability of Human Serum Amyloid A Fibrils.

机构信息

Department of Chemistry & Biochemistry, University of Oklahoma, Norman, Oklahoma 73019, United States.

出版信息

J Phys Chem B. 2020 Nov 25;124(47):10708-10717. doi: 10.1021/acs.jpcb.0c08280. Epub 2020 Nov 16.

DOI:10.1021/acs.jpcb.0c08280

PMID:33197318

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7688565/

Abstract

In systemic amyloidosis, serum amyloid A (SAA) fibril deposits cause widespread damages to tissues and organs that eventually may lead to death. A therapeutically intervention therefore has either to dissolve these fibrils or inhibit their formation. However, only recently has the human SAA fibril structure been resolved at a resolution that is sufficient for development of drug candidates. Here, we use molecular dynamic simulations to probe the factors that modulate the stability of this fibril model. Our simulations suggest that fibril formation starts with the stacking of two misfolded monomers into metastable dimers, with the stacking depending on the N-terminal amyloidogenic regions of different chains forming anchors. The resulting dimers pack in a second step into a 2-fold two-layer tetramer that is stable enough to nucleate fibril formation. The stability of the initial dimers is enhanced under acidic conditions by a strong salt bridge and side-chain hydrogen bond network in the C-terminal cavity (residues 23-51) but is not affected by the presence of the disordered C-terminal tail.

摘要

在系统性淀粉样变性中，血清淀粉样蛋白 A (SAA) 纤维沉积物会对组织和器官造成广泛的损害，最终可能导致死亡。因此，治疗干预要么溶解这些纤维，要么抑制其形成。然而，直到最近，人类 SAA 纤维的结构才被解析到足以开发候选药物的分辨率。在这里，我们使用分子动力学模拟来探讨调节这种纤维模型稳定性的因素。我们的模拟表明，纤维的形成始于两个错误折叠的单体堆叠成亚稳定的二聚体，堆叠取决于不同链的 N 端淀粉样结构域形成的锚点。形成的二聚体在第二步组装成一个 2 倍双层四聚体，其稳定性足以引发纤维的形成。在酸性条件下，强烈的盐桥和 C 端腔（残基 23-51）中的侧链氢键网络增强了初始二聚体的稳定性，但无序的 C 端尾部的存在并不影响其稳定性。

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