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合成及评价一系列新型三、二和单-N-烷基氨甲酰基间苯三酚作为乙酰胆碱酯酶的大位阻抑制剂。

Synthesis and evaluation of a new series of tri-, di-, and mono-N-alkylcarbamylphloroglucinols as bulky inhibitors of acetylcholinesterase.

机构信息

Division of Internal Medicine, Chung Shan Medical University Hospital, School of Medicine, Chung Shan Medical University, Taichung 402, Taiwan.

出版信息

Chem Res Toxicol. 2012 Jul 16;25(7):1462-71. doi: 10.1021/tx300119a. Epub 2012 Jun 25.

Abstract

1,3,5-Tri-N-alkylcarbamylphloroglucinols (1-4) are synthesized as a new series of bulky inhibitors of acetylcholinesterase that may block the catalytic triad, the anionic substrate binding site, and the entrance of the enzyme simultaneously. Among three series of phloroglucinol-derived carbamates, tridentate inhibitors 1,3,5-tri-N-alkylcarbamylphloroglucinols (1-4), bidentate inhibitors 3,5-di-N-n-alkylcarbamyloxyphenols (5-8), and monodentate inhibitors 5-N-n-alkylcarbamyloxyresorcinols (9-12), tridentate inhibitors 1-4 are the most potent inhibitors of mouse acetylcholinesterase. When different n-alkylcarbamyl substituents in tridentate inhibitors 1-4 are compared, n-octylcarbamate 1 is the most potent inhibitor of the enzyme. All inhibitors 1-12 are characterized as the pseudo substrate inhibitors of acetylcholinesterase. Thus, tridentate inhibitors 1-4 are supposed to be hydrolyzed to bidentate inhibitors 5-8 after the enzyme catalysis. Subsequently, bidentate inhibitors 5-8 and monodentate inhibitors 9-12 are supposed to yield monodentate inhibitors 9-12 and phloroglucinol, respectively, after the enzyme catalysis. This means that tridentate inhibitors 1-4 may act as long period inhibitors of the enzyme. Therefore, inhibitors 1-4 may be considered as a new methodology to develop the long-acting drug for Alzheimer's disease. Automated dockings of inhibitor 1 into the X-ray crystal structure of acetylcholinesterase suggest that the most suitable configuration of inhibitor 1 to the enzyme binding is the (1,3,5)- (cis,trans,trans)-tricarbamate rotamer. The cis-carbamyl moiety of this rotamer does not bind into the acetyl group binding site of the enzyme but stretches out itself to the entrance. The other two trans-carbmayl moieties of this rotamer bulkily block the tryptophan 86 residue of the enzyme.

摘要

1,3,5-三-N-烷基氨甲酰基间苯三酚(1-4)被合成作为一类新型的乙酰胆碱酯酶的大位阻抑制剂,其可能同时阻断催化三联体、阴离子底物结合位点和酶的入口。在三类间苯三酚衍生的氨基甲酸酯中,三齿抑制剂 1,3,5-三-N-烷基氨甲酰基间苯三酚(1-4)、二齿抑制剂 3,5-二-N-正烷基氨甲酰基苯酚(5-8)和单齿抑制剂 5-N-正烷基氨甲酰基间苯二酚(9-12),三齿抑制剂 1-4 是对小鼠乙酰胆碱酯酶最有效的抑制剂。当比较三齿抑制剂 1-4 中不同的正烷基氨基甲酰基取代基时,正辛基氨基甲酰基 1 是对酶最有效的抑制剂。所有抑制剂 1-12 均被表征为乙酰胆碱酯酶的拟底物抑制剂。因此,三齿抑制剂 1-4 被认为在酶催化后会水解生成二齿抑制剂 5-8。随后,二齿抑制剂 5-8 和单齿抑制剂 9-12 被认为在酶催化后分别生成单齿抑制剂 9-12 和间苯三酚。这意味着三齿抑制剂 1-4 可能作为酶的长效抑制剂。因此,抑制剂 1-4 可以被认为是开发阿尔茨海默病长效药物的一种新方法。抑制剂 1 与乙酰胆碱酯酶的 X 射线晶体结构的自动对接表明,抑制剂 1 与酶结合的最适构象是(1,3,5)-(顺式,反式,反式)-三氨基甲酸酯旋转异构体。该旋转异构体的顺式氨基甲酰基部分不结合到酶的乙酰基结合位点,而是自身伸展到入口处。该旋转异构体的另外两个反式氨基甲酰基部分庞大地阻止酶的色氨酸 86 残基。

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