Membrane-assisted Aβ40 aggregation pathways

Fidha Nazreen Kunnath Muhammedkutty, Huan-Xiang Zhou
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Abstract

Alzheimer's disease (AD) is caused by the assembly of amyloid-beta (Aβ) peptides into oligomers and fibrils. Endogenous Aβ aggregation may be assisted by cell membranes, which can accelerate the nucleation step enormously, but knowledge of membrane-assisted aggregation is still very limited. Here we used extensive MD simulations to structurally and energetically characterize key intermediates along the membrane-assisted aggregation pathways of Aβ40. Reinforcing experimental observations, the simulations reveal unique roles of GM1 ganglioside and cholesterol in stabilizing membrane-embedded β-sheets and of Y10 and K28 in the ordered release of a small oligomeric seed into solution. The same seed leads to either an open-shaped or R-shaped fibril, with significant stabilization provided by inter- or intra-subunit interfaces between a straight β-sheet (residues Q15-D23) and a bent β-sheet (residues A30-V36). This work presents the first comprehensive picture of membrane-assisted aggregation of Aβ40, with broad implications for developing AD therapies and rationalizing disease-specific polymorphisms of amyloidogenic proteins.
膜辅助 Aβ40 聚合途径
阿尔茨海默病(AD)是由淀粉样β(Aβ)肽聚集成低聚物和纤维所引起的。内源性 Aβ 聚集可能会得到细胞膜的协助,细胞膜可大大加快成核步骤,但人们对细胞膜协助聚集的了解仍然非常有限。在这里,我们利用大量 MD 模拟从结构和能量上描述了 Aβ40 膜辅助聚集途径的关键中间产物。模拟证实了实验观察结果,揭示了 GM1 神经节苷脂和胆固醇在稳定膜嵌入的 β 片方面的独特作用,以及 Y10 和 K28 在将小低聚物种子有序释放到溶液中方面的独特作用。同样的种子会导致开放型或 R 型纤维,而直的β片(残基 Q15-D23)和弯曲的β片(残基 A30-V36)之间的亚基间或亚基内界面会提供重要的稳定作用。这项工作首次全面展示了 Aβ40 的膜辅助聚集,对开发注意力缺失症疗法和合理调整淀粉样蛋白的疾病特异性多态性具有广泛的意义。
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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