槲皮素的计算机辅助定量构效关系分析揭示了其作为阿尔茨海默病治疗药物的潜力。
In silico QSAR analysis of quercetin reveals its potential as therapeutic drug for Alzheimer's disease.
作者信息
Islam Md Rezaul, Zaman Aubhishek, Jahan Iffat, Chakravorty Rajib, Chakraborty Sajib
机构信息
International Max Planck Research School for Neurosciences, University of Göttingen, 37077 Göttingen, Germany ; Department of Biochemistry and Molecular Biology, University of Dhaka, Dhaka 1000, Bangladesh.
University of Texas Southwestern Medical Center, Dallas, TX 75235, USA.
出版信息
J Young Pharm. 2013 Dec;5(4):173-9. doi: 10.1016/j.jyp.2013.11.005. Epub 2013 Dec 15.
UNLABELLED
Acetylcholine-esterase (AchE) inhibitors are one of the most potent drug molecules against Alzheimer's disease (AD). But, patients treated with current AchE inhibitors often experience severe side effects. Quercetin is a plant flavonoid compound which can act as AchE inhibitor and it may be a better alternative to current AchE inhibitors in terms of effectiveness with no or fewer side effects.
AIMS
The aim of the study was to compare quercetin with conventional AchE inhibitors to search for a better drug candidate.
METHODS AND MATERIALS
Physico-chemical properties of conventional drugs and quercetin were predicted using bioinformatics tools. Molecular docking of these compounds on the active site of AchE was performed using AutoDock and comparative analysis was performed. Later, modification on the basic structure of quercetin with different functional groups was done to perform QSAR analysis.
RESULT AND DISCUSSION
Quercetin showed a similar drug likeness score to the conventional drugs. The binding strength for quercetin in the active site of the enzyme was -8.8 kcal/mol, which was considerably higher than binding scores for some of the drugs such as donepezil (binding score -7.9 kcal/mol). Fifteen hydrogen bonds were predicted between quercetin and the enzyme whereas conventional drugs had fewer or even no hydrogen bonds. It implies that quercetin can act as a better inhibitor than conventional drugs. To find out even better inhibitor, similar structures of quercetin were searched through SIMCOMP database and a methylation in the 4-OH position of the molecule showed better binding affinity than parent quercetin. Quantitative structure activity relationship study indicated that O-4 methylation was specifically responsible for better affinity.
CONCLUSION
This in silico study has conclusively predicted the superiority of the natural compound quercetin over the conventional drugs as AchE inhibitor and it sets the need for further in-vitro study of this compound in future.
未标注
乙酰胆碱酯酶(AchE)抑制剂是治疗阿尔茨海默病(AD)最有效的药物分子之一。但是,目前接受AchE抑制剂治疗的患者经常会出现严重的副作用。槲皮素是一种植物黄酮类化合物,可作为AchE抑制剂,就有效性而言,它可能是目前AchE抑制剂更好的替代品,且副作用较少或没有副作用。
目的
本研究的目的是将槲皮素与传统AchE抑制剂进行比较,以寻找更好的候选药物。
方法和材料
使用生物信息学工具预测传统药物和槲皮素的物理化学性质。使用AutoDock对这些化合物在AchE活性位点进行分子对接,并进行比较分析。随后,对槲皮素的基本结构进行不同官能团的修饰,以进行定量构效关系(QSAR)分析。
结果与讨论
槲皮素显示出与传统药物相似的类药分数。槲皮素在酶活性位点的结合强度为-8.8千卡/摩尔,这大大高于某些药物如多奈哌齐的结合分数(结合分数为-7.9千卡/摩尔)。预测槲皮素与酶之间有15个氢键,而传统药物的氢键较少甚至没有。这意味着槲皮素可以作为比传统药物更好的抑制剂。为了找到更好的抑制剂,通过SIMCOMP数据库搜索槲皮素的类似结构,分子4-OH位置的甲基化显示出比母体槲皮素更好的结合亲和力。定量构效关系研究表明,O-4甲基化对更好的亲和力起特定作用。
结论
这项计算机模拟研究最终预测了天然化合物槲皮素作为AchE抑制剂优于传统药物,并确定了未来对该化合物进行进一步体外研究的必要性。
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