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本文引用的文献

1
Probing energetics of Abeta fibril elongation by molecular dynamics simulations.通过分子动力学模拟探究β淀粉样蛋白原纤维伸长的能量学
Biophys J. 2009 Jun 3;96(11):4428-37. doi: 10.1016/j.bpj.2009.03.015.
2
Probing the effect of amino-terminal truncation for Abeta1-40 peptides.探究β淀粉样蛋白1-40肽氨基末端截短的影响。
J Phys Chem B. 2009 May 14;113(19):6692-702. doi: 10.1021/jp9016773.
3
Interpeptide interactions induce helix to strand structural transition in Abeta peptides.肽间相互作用诱导β-淀粉样肽发生从螺旋到链的结构转变。
Proteins. 2009 Oct;77(1):1-13. doi: 10.1002/prot.22406.
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Amyloid beta (1-42) folding multiplicity and single-molecule binding behavior studied with STM.用扫描隧道显微镜研究β-淀粉样蛋白(1-42)的折叠多样性和单分子结合行为。
J Mol Biol. 2009 May 15;388(4):894-901. doi: 10.1016/j.jmb.2009.03.054. Epub 2009 Mar 25.
5
9,10-Anthraquinone hinders beta-aggregation: how does a small molecule interfere with Abeta-peptide amyloid fibrillation?9,10-蒽醌可抑制β-聚集:一种小分子如何干扰β-淀粉样肽的淀粉样纤维化?
Protein Sci. 2009 Apr;18(4):792-800. doi: 10.1002/pro.87.
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Replica exchange simulations of the thermodynamics of Abeta fibril growth.β-淀粉样蛋白纤维生长热力学的复制交换模拟
Biophys J. 2009 Jan;96(2):442-52. doi: 10.1016/j.bpj.2008.10.008.
7
The binding of thioflavin T and its neutral analog BTA-1 to protofibrils of the Alzheimer's disease Abeta(16-22) peptide probed by molecular dynamics simulations.通过分子动力学模拟研究硫黄素T及其中性类似物BTA-1与阿尔茨海默病β淀粉样蛋白(16-22)肽原纤维的结合。
J Mol Biol. 2008 Dec 19;384(3):718-29. doi: 10.1016/j.jmb.2008.09.062. Epub 2008 Oct 7.
8
Amyloid beta-protein monomer folding: free-energy surfaces reveal alloform-specific differences.淀粉样β蛋白单体折叠:自由能表面揭示了异构体特异性差异。
J Mol Biol. 2008 Dec 12;384(2):450-64. doi: 10.1016/j.jmb.2008.09.039. Epub 2008 Sep 24.
9
Role of water in mediating the assembly of Alzheimer amyloid-beta Abeta16-22 protofilaments.水在介导阿尔茨海默病β淀粉样蛋白Abeta16 - 22原纤维组装中的作用。
J Am Chem Soc. 2008 Aug 20;130(33):11066-72. doi: 10.1021/ja8017303. Epub 2008 Jul 29.
10
Amyloid-beta protein dimers isolated directly from Alzheimer's brains impair synaptic plasticity and memory.直接从阿尔茨海默病患者大脑中分离出的β-淀粉样蛋白二聚体损害突触可塑性和记忆。
Nat Med. 2008 Aug;14(8):837-42. doi: 10.1038/nm1782. Epub 2008 Jun 22.

布洛芬与β-淀粉样肽结合的分子动力学模拟

Molecular dynamics simulations of Ibuprofen binding to Abeta peptides.

作者信息

Raman E Prabhu, Takeda Takako, Klimov Dmitri K

机构信息

Department of Pharmaceutical Sciences, School of Pharmacy, University of Maryland, Baltimore, Maryland, USA.

出版信息

Biophys J. 2009 Oct 7;97(7):2070-9. doi: 10.1016/j.bpj.2009.07.032.

DOI:10.1016/j.bpj.2009.07.032
PMID:19804739
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2756381/
Abstract

Using replica exchange molecular dynamics simulations and the implicit solvent model we probed binding of ibuprofen to Abeta(10-40) monomers and amyloid fibrils. We found that the concave (CV) fibril edge has significantly higher binding affinity for ibuprofen than the convex edge. Furthermore, binding of ibuprofen to Abeta monomers, as compared to fibrils, results in a smaller free energy gain. The difference in binding free energies is likely to be related to the presence of the groove on the CV fibril edge, in which ibuprofen tends to accumulate. The confinement effect of the groove promotes the formation of large low-energy ibuprofen clusters, which rarely occur on the surface of Abeta monomers. These observations led us to suggest that the ibuprofen binding mechanism for Abeta fibrils is different from that for monomers. In general, ibuprofen shows a preference to bind to those regions of Abeta monomers (amino terminal) and fibrils (the CV edge) that are also the primary aggregation interfaces. Based on our findings and on available experimental data, we propose a rationale for the ibuprofen antiaggregation effect.

摘要

我们使用复制交换分子动力学模拟和隐式溶剂模型,探究了布洛芬与β-淀粉样蛋白(10 - 40)单体及淀粉样纤维的结合情况。我们发现,与凸边相比,凹面(CV)纤维边缘对布洛芬具有显著更高的结合亲和力。此外,与纤维相比,布洛芬与β-淀粉样蛋白单体的结合导致较小的自由能增益。结合自由能的差异可能与CV纤维边缘存在的凹槽有关,布洛芬倾向于在该凹槽中聚集。凹槽的限制作用促进了大型低能量布洛芬簇的形成,而这种情况在β-淀粉样蛋白单体表面很少发生。这些观察结果使我们认为,布洛芬与β-淀粉样蛋白纤维的结合机制不同于与单体的结合机制。总体而言,布洛芬倾向于结合到β-淀粉样蛋白单体(氨基末端)和纤维(CV边缘)中也是主要聚集界面的那些区域。基于我们的研究结果和现有实验数据,我们提出了布洛芬抗聚集作用的基本原理。