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错误折叠的淀粉样纤维离子通道呈现出可移动的β-折叠亚基,这与传统的离子通道不同。

Misfolded amyloid ion channels present mobile beta-sheet subunits in contrast to conventional ion channels.

机构信息

Center for Cancer Research Nanobiology Program, NCI-Frederick, SAIC-Frederick, Frederick, Maryland, USA.

出版信息

Biophys J. 2009 Dec 2;97(11):3029-37. doi: 10.1016/j.bpj.2009.09.014.

DOI:10.1016/j.bpj.2009.09.014
PMID:19948133
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2784570/
Abstract

In Alzheimer's disease, calcium permeability through cellular membranes appears to underlie neuronal cell death. It is increasingly accepted that calcium permeability involves toxic ion channels. We modeled Alzheimer's disease ion channels of different sizes (12-mer to 36-mer) in the lipid bilayer using molecular dynamics simulations. Our Abeta channels consist of the solid-state NMR-based U-shaped beta-strand-turn-beta-strand motif. In the simulations we obtain ion-permeable channels whose subunit morphologies and shapes are consistent with electron microscopy/atomic force microscopy. In agreement with imaged channels, the simulations indicate that beta-sheet channels break into loosely associated mobile beta-sheet subunits. The preferred channel sizes (16- to 24-mer) are compatible with electron microscopy/atomic force microscopy-derived dimensions. Mobile subunits were also observed for beta-sheet channels formed by cytolytic PG-1 beta-hairpins. The emerging picture from our large-scale simulations is that toxic ion channels formed by beta-sheets spontaneously break into loosely interacting dynamic units that associate and dissociate leading to toxic ionic flux. This sharply contrasts intact conventional gated ion channels that consist of tightly interacting alpha-helices that robustly prevent ion leakage, rather than hydrogen-bonded beta-strands. The simulations suggest why conventional gated channels evolved to consist of interacting alpha-helices rather than hydrogen-bonded beta-strands that tend to break in fluidic bilayers. Nature designs folded channels but not misfolded toxic channels.

摘要

在阿尔茨海默病中,细胞膜的钙离子通透性似乎是神经元细胞死亡的基础。越来越多的人认为,钙离子通透性涉及有毒的离子通道。我们使用分子动力学模拟,在脂质双层中模拟了不同大小(12 个残基到 36 个残基)的阿尔茨海默病离子通道。我们的 Abeta 通道由固态 NMR 为基础的 U 形β链-转角-β链基序组成。在模拟中,我们得到了离子可渗透的通道,其亚基形态和形状与电子显微镜/原子力显微镜一致。与成像通道一致,模拟表明β-折叠通道会断裂成松散相关的可移动β-折叠亚基。首选的通道大小(16-24 个残基)与电子显微镜/原子力显微镜得出的尺寸兼容。还观察到由溶细胞性 PG-1β发夹形成的β-折叠通道中的可移动亚基。我们的大规模模拟得出的新图像是,由β-折叠形成的有毒离子通道会自发地断裂成松散相互作用的动态单元,这些单元会发生缔合和解离,从而导致有毒的离子流。这与完整的传统门控离子通道形成鲜明对比,传统门控离子通道由紧密相互作用的α-螺旋组成,这些α-螺旋能够有效地防止离子泄漏,而不是氢键结合的β-折叠。模拟表明了为什么传统的门控通道会进化为由相互作用的α-螺旋组成,而不是倾向于在流体双层中断裂的氢键结合的β-折叠。自然界设计的是折叠通道,而不是错误折叠的有毒通道。

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Neurotox Res. 2009 Jul;16(1):1-13. doi: 10.1007/s12640-009-9033-1. Epub 2009 Mar 19.
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Induction of negative curvature as a mechanism of cell toxicity by amyloidogenic peptides: the case of islet amyloid polypeptide.淀粉样蛋白生成肽诱导负曲率作为细胞毒性机制:以胰岛淀粉样多肽为例。
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Interprotofilament interactions between Alzheimer's Abeta1-42 peptides in amyloid fibrils revealed by cryoEM.冷冻电镜揭示淀粉样原纤维中阿尔茨海默病β-淀粉样蛋白1-42肽之间的原纤维间相互作用。
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Small molecule blockers of the Alzheimer Abeta calcium channel potently protect neurons from Abeta cytotoxicity.阿尔茨海默病β淀粉样蛋白钙通道的小分子阻滞剂能有效保护神经元免受β淀粉样蛋白的细胞毒性作用。
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