Department of Internal Medicine, Chung Shan Medical University Hospital, School of Medicine, Chung-Shan Medical University, Taichung 402, Taiwan.
Protein Sci. 2012 Sep;21(9):1344-57. doi: 10.1002/pro.2121. Epub 2012 Aug 9.
1,3,5-Tri-N-alkylcarbamylphloroglucinols (1-4) are synthesized as conformationally constrained analogs of triacylglycerols (TGs) to probe Jenck's proximity effect in the cholesterol esterase inhibition. For the cholesterol esterase inhibition, inhibitors 1-4 are 220-760-fold more potent than 1,2,3-tri-N-alkylcarbamylglycerols (13-15) that are substrate analogs of TG. Comparison of tridentate inhibitors 1-4, bidentate inhibitors 3,5-di-N-n-alkylcarbamyloxyphenols (5-8) and monodentate inhibitors 5-N-n-alkylcarbamyloxyresorcinols (9-12) indicates that inhibitory potencies are as followed: tridentate inhibitor > bidentate inhibitor > monodentate inhibitor. The log k(i) and pK(i) values of tridentate inhibitors, bidentate inhibitors, and monodentate inhibitors are linearly correlated with the alkyl chain length indicating a common mechanism in each inhibition. Also, positive slopes of these correlations indicate that the longer chain inhibitors bind more tightly to the enzyme than the shorter ones. Molecular dockings of tridentate 1, bidentate 5, and monodentate 9 into the X-ray crystal structure of cholesterol esterase suggest that one carbamyl group in the cis form of the inhibitor binds to the acyl chain-binding site of the enzyme. The second carbamyl groups in the trans forms of inhibitors 1 and 5 bind to the second acyl chain-binding site of the enzyme. The third carbamyl group in the trans form of inhibitor 1 binds to the third acyl chain-binding site of the enzyme. Moreover, the configuration of the inhibitor in the enzyme-inhibitor complex is the (1,3,5)-(cis, trans, trans)-tricarbamate form that mimics the (+gauche, -gauche)-conformation of TG.
1,3,5-三-N-烷基碳酰胺基邻苯三酚(1-4)被合成作为甘油三酯(TG)的构象限制类似物,以探测胆固醇酯酶抑制中的 Jenck 临近效应。对于胆固醇酯酶抑制,抑制剂 1-4 比 TG 的底物类似物 1,2,3-三-N-烷基碳酰胺基甘油(13-15)强 220-760 倍。三齿抑制剂 1-4、二齿抑制剂 3,5-二-N-正烷基碳酰胺基苯酚(5-8)和单齿抑制剂 5-N-正烷基碳酰胺基间苯二酚(9-12)的比较表明,抑制活力如下:三齿抑制剂>二齿抑制剂>单齿抑制剂。三齿抑制剂、二齿抑制剂和单齿抑制剂的 log k(i)和 pK(i)值与烷基链长度呈线性相关,表明每种抑制作用均具有共同的机制。此外,这些相关性的正斜率表明,较长链抑制剂比较短链抑制剂与酶的结合更紧密。三齿化合物 1、二齿化合物 5 和单齿化合物 9 分子对接入胆固醇酯酶的 X 射线晶体结构表明,抑制剂顺式构型中的一个碳酰胺基结合到酶的酰基链结合位点。抑制剂 1 和 5 的反式构型中的第二个碳酰胺基结合到酶的第二个酰基链结合位点。抑制剂 1 的反式构型中的第三个碳酰胺基结合到酶的第三个酰基链结合位点。此外,酶-抑制剂复合物中抑制剂的构型为(1,3,5)-(顺式,反式,反式)-三碳酰胺形式,模拟 TG 的(+gauche,-gauche)-构象。