Faculty of Pharmaceutical Sciences, UCSI University, Jalan Menara Gading, Taman Connaught, Cheras, 56000 Kuala Lumpur, Malaysia.
Curr Drug Discov Technol. 2020;17(2):248-260. doi: 10.2174/1570163815666181017091655.
The primary aim of this study is to understand the binding of curcumin and its analogues to different PDE4 subtypes and identify the role of PDE4 subtype inhibition in the anti-inflammatory property of curcumin. Docking analysis has been used to acquire the above mentioned structural information and this has been further used for designing of curcumin derivatives with better anti-inflammatory activity.
Curcumin and its analogues were subjected to docking using PDE4A, PDE4B, PDE4C and PDE4D as the targets. A data set comprising 18 analogues of curcumin, was used as ligands for docking of PDE4 subtypes. Curcumin was used as the standard for comparison. Docking was performed using AutoDock Vina 1.1.2 software integrated in LigandScout 4.1. During this process water molecules were removed from proteins, charges were added and receptor structures were minimised by applying suitable force fields. The docking scores were compared, and the selectivity of compounds for PDE4B over PDE4D was calculated as well.
All curcumin analogues used in the study showed good binding affinity with all PDE4 subtypes, with evident selectivity towards PDE4B subtype. Analogue A11 provides the highest binding affinity among all ligands.
Curcumin and analogues have moderate to strong affinity towards all PDE4 subtypes and have evident selectivity towards PDE4B. The Oxygen atom of the methoxy group plays a key role in PDE4B binding and any alterations could interfere with the binding. Tetrahydropyran side chain and heterocyclic rings are also suggested to be helpful in PDE4B binding.
本研究的主要目的是了解姜黄素及其类似物与不同 PDE4 亚型的结合,并确定 PDE4 亚型抑制在姜黄素抗炎特性中的作用。对接分析用于获取上述结构信息,并进一步用于设计具有更好抗炎活性的姜黄素衍生物。
将姜黄素及其类似物作为配体,对接 PDE4A、PDE4B、PDE4C 和 PDE4D 作为靶点。使用包含 18 种姜黄素类似物的数据集进行 PDE4 亚型对接。姜黄素被用作比较的标准。对接使用 AutoDock Vina 1.1.2 软件在 LigandScout 4.1 中进行。在这个过程中,从蛋白质中去除水分子,添加电荷,并通过应用合适的力场最小化受体结构。比较了对接分数,并计算了化合物对 PDE4B 相对于 PDE4D 的选择性。
研究中使用的所有姜黄素类似物均与所有 PDE4 亚型表现出良好的结合亲和力,对 PDE4B 亚型表现出明显的选择性。类似物 A11 在所有配体中表现出最高的结合亲和力。
姜黄素及其类似物对所有 PDE4 亚型具有中等至较强的亲和力,并对 PDE4B 具有明显的选择性。甲氧基氧原子在 PDE4B 结合中起着关键作用,任何改变都可能干扰结合。四氢吡喃侧链和杂环也被认为有助于 PDE4B 结合。
