Chen Meimei, Yang Xuemei, Lai Xinmei, Gao Yuxing
College of Traditional Chinese Medicine, Fujian University of Traditional Chinese Medicine, Fuzhou 350122, Fujian, China.
College of Traditional Chinese Medicine, Fujian University of Traditional Chinese Medicine, Fuzhou 350122, Fujian, China.
Bioorg Med Chem Lett. 2015 Oct 15;25(20):4487-95. doi: 10.1016/j.bmcl.2015.08.080. Epub 2015 Aug 29.
Cholesteryl ester transfer protein (CETP) inhibitors hold promise as new agents against coronary heart disease. Molecular modeling techniques such as 2D-QSAR and 3D-QSAR analysis were applied to establish models to distinguish potent and weak CETP inhibitors. 2D and 3D QSAR models-based a series of diphenylpyridylethanamine (DPPE) derivatives (newly identified as CETP inhibitors) were then performed to elucidate structural and physicochemical requirements for higher CETP inhibitory activity. The linear and spline 2D-QSAR models were developed through multiple linear regression (MLR) and support vector machine (SVM) methods. The best 2D-QSAR model obtained by SVM gave a high predictive ability (R(2)train=0.929, R(2)test=0.826, Q(2)LOO=0.780). Also, the 2D-QSAR models uncovered that SlogP_VSA0, E_sol and Vsurf_DW23 were important features in defining activity. In addition, the best 3D-QSAR model presented higher predictive ability (R(2)train=0.958, R(2)test=0.852, Q(2)LOO=0.734) based on comparative molecular field analysis (CoMFA). Meanwhile, the derived contour maps from 3D-QSAR model revealed the significant structural features (steric and electronic effects) required for improving CETP inhibitory activity. Consequently, twelve newly designed DPPE derivatives were proposed to be robust and potent CETP inhibitors. Overall, these derived models may help to design novel DPPE derivatives with better CETP inhibitory activity.
胆固醇酯转运蛋白(CETP)抑制剂有望成为治疗冠心病的新型药物。应用二维定量构效关系(2D-QSAR)和三维定量构效关系(3D-QSAR)分析等分子建模技术来建立区分强效和弱效CETP抑制剂的模型。基于2D和3D QSAR模型对一系列二苯基吡啶基乙胺(DPPE)衍生物(新鉴定为CETP抑制剂)进行研究,以阐明更高CETP抑制活性所需的结构和物理化学要求。通过多元线性回归(MLR)和支持向量机(SVM)方法建立了线性和样条二维定量构效关系模型。通过支持向量机获得的最佳二维定量构效关系模型具有较高的预测能力(R(2)训练集=0.929,R(2)测试集=0.826,Q(2)留一法=0.780)。此外,二维定量构效关系模型还发现辛醇/水分配系数的可变表面积(SlogP_VSA0)、溶剂化能(E_sol)和分子表面静电势的第23阶矩(Vsurf_DW23)是定义活性的重要特征。此外,基于比较分子场分析(CoMFA)的最佳三维定量构效关系模型具有更高的预测能力(R(2)训练集=0.958,R(2)测试集=0.852,Q(2)留一法=0.734)。同时,从三维定量构效关系模型导出的等高线图揭示了提高CETP抑制活性所需的重要结构特征(空间和电子效应)。因此,提出了12种新设计的DPPE衍生物作为强效且有效的CETP抑制剂。总体而言,这些推导模型可能有助于设计出具有更好CETP抑制活性的新型DPPE衍生物。
