Joubert Jacques, Foka Germaine B, Repsold Benjamin P, Oliver Douglas W, Kapp Erika, Malan Sarel F
Pharmaceutical Chemistry, School of Pharmacy, University of the Western Cape, Private Bag X17, Bellville, South Africa.
Pharmaceutical Chemistry, School of Pharmacy, University of the Western Cape, Private Bag X17, Bellville, South Africa.
Eur J Med Chem. 2017 Jan 5;125:853-864. doi: 10.1016/j.ejmech.2016.09.041. Epub 2016 Sep 15.
A series of 7-substituted coumarin derivatives were designed and synthesised to display ChE and MAO-B inhibitory activity. The compounds consisted out of a coumarin structure (MAO-B inhibitor) and benzyl-, piperidine-, N-benzylpiperidine- or p-bromo-N-benzylpiperizine moiety, resembling the N-benzylpiperidine function of donepezil (ChE inhibitor), connected via an alkyl ether linkage at the 7 position. The biological assay results indicated that all the compounds (1-25) displayed selective inhibition to hMAO-B over hMAO-A, with the benzyloxy series (1-8, 10-13) showing nano-molar hMAO-B inhibition (IC: 0.5-73 nM). Limited ChE inhibitory activity was however observed for the benzyloxy series with the exception of 2 and especially 3 showing selective BuChE inhibition. From this series 3 showed the best multifunctional activity (eqBuChE IC = 0.96 μM, hMAO-A IC = 2.13 μM, hMAO-B IC = 0.0021 μM). Within the N-benzylpiperidine (16-19) and p-bromo-N-benzylpiperizine (21-24) series the compounds in general showed moderate ChE and MAO-B inhibitory activity. Of these compounds 19 was the most potent multifunctional agent showing good eeAChE and eqBuChE inhibition (IC = 9.10 μM and 5.90 μM, respectively), and relatively potent and selective hMAO-B inhibition (IC = 0.30 μM, SI = >33). Molecular modeling revealed that 19 was able to bind simultaneously to the CAS, mid-gorge and PAS sites of AChE and BuChE suggesting that it will be able to inhibit AChE induced Aβ aggregation. From this study, compounds that 3 and 19 can be considered as promising multifunctional lead compounds.
设计并合成了一系列7-取代香豆素衍生物,以展现胆碱酯酶(ChE)和单胺氧化酶B(MAO-B)抑制活性。这些化合物由香豆素结构(MAO-B抑制剂)和苄基、哌啶、N-苄基哌啶或对溴-N-苄基哌嗪部分组成,类似于多奈哌齐的N-苄基哌啶功能(ChE抑制剂),通过7位的烷基醚键连接。生物学测定结果表明,所有化合物(1-25)对人源MAO-B的抑制作用均高于人源MAO-A,苄氧基系列(1-8、10-13)对人源MAO-B表现出纳摩尔级别的抑制作用(IC:0.5-73 nM)。然而,除了化合物2,尤其是化合物3表现出对丁酰胆碱酯酶(BuChE)的选择性抑制外,苄氧基系列的胆碱酯酶抑制活性有限。在该系列中,化合物3表现出最佳的多功能活性(等效BuChE IC = 0.96 μM,人源MAO-A IC = 2.13 μM,人源MAO-B IC = 0.0021 μM)。在N-苄基哌啶(16-19)和对溴-N-苄基哌嗪(21-24)系列中,化合物总体上表现出中等的胆碱酯酶和MAO-B抑制活性。在这些化合物中,化合物19是最有效的多功能试剂,对乙酰胆碱酯酶(eeAChE)和等效BuChE表现出良好的抑制作用(IC分别为9.10 μM和5.90 μM),并且对人源MAO-B具有相对较强的选择性抑制作用(IC = 0.30 μM,选择性指数SI =>33)。分子模拟显示,化合物19能够同时结合到乙酰胆碱酯酶(AChE)和丁酰胆碱酯酶(BuChE)的催化活性位点(CAS)、中间峡谷位点和外周阴离子位点(PAS),这表明它将能够抑制AChE诱导的β-淀粉样蛋白(Aβ)聚集。从这项研究来看,化合物3和19可被视为有前景的多功能先导化合物。
