具有电拓扑状态原子指数的QSAR:人因子Xa抑制剂n2 -芳酰氰胺。

Drug design and discovery Pub Date : 2002-01-01
Kunal Roy, A U De, Chandana Sengupta
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引用次数: 0

摘要

最近,n2 -芳酰蒽酰胺被报道为一系列可能的抗凝血候选药物,并且两个芳基环(A和B)被认为分别与人因子Xa (hfXa)的S1和S4区域相互作用。在目前的努力中,我们尝试了32种n2 -芳酰亚胺的hfXa结合亲和力的定量构效关系(QSAR),继续我们之前的报告,使用线性自由能相关(LFER)模型对数据集进行QSAR分析,并使用电拓扑状态原子(ETSA)指数(Kier and Hall, 1991, ad . Drug Design)。, 22,1 -38),以探索在较大程度上调节活性的化合物的原子/区域。化合物中不同共有原子的ETSA值的单变量和双变量关系表明,12号、3号和17号原子(任意编号):B环含碳元R2取代基、C环含碳元R4取代基和A环酰胺键羰基氧的重要性。原子12的重要性被认为是由于R2取代基(B环)对hfXa结合亲和力的不利影响,这可能是由于干扰了S4位点苯环的正确取向。原子3表示R4取代基(中心C环)对结合亲合力的影响。同样,原子17 (A环酰胺键的羰基氧)被认为与另一个酰胺键的NH基团形成氢键,产生伪环,从而稳定结构。利用指示剂和理化变量进一步改善了两者之间的关系,所得结果与前人的Hansch分析结果吻合较好。
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QSAR with electrotopological state atom index: human factor Xa inhibitor N2-aroylanthranilamides.

Recently, N2-aroylanthranilamides have been reported as novel series of possible anticoagulant drug candidates and the two aryl rings (A and B) have been suggested to interact with S1 and S4 regions, respectively, of human factor Xa (hfXa). In the present effort, quantitative structure-activity relationship (QSAR) of the hfXa binding affinity of 32 N2-aroylanthranilamides have been attempted, in continuation of our previous report on the QSAR analysis of the data set using linear free energy related (LFER) model, with electrotopological state atom (ETSA) index (Kier and Hall, 1991, Adv. Drug Design., 22, 1-38), to explore the atoms/regions of the compounds that modulate the activity comparatively to the greater extent. The univariate and bivariate relations involving the ETSA values of different common atoms of the compounds show importance of the atom nos. 12, 3 and 17 (arbitrary numbering): B ring carbon bearing meta R2 substituents, C ring carbon bearing R4 substituent, and carbonyl oxygen of A ring amide linkage. The importance of atom 12 is suggested to be due to detrimental effects of meta R2 substituents (B ring) on the hfXa binding affinity, which may be owing to interference in the attainment of the proper orientation of the phenyl ring in the S4 site. Atom 3 signifies the impact of R4 substituents (central C ring) on the binding affinity. Again, atom 17 (carbonyl oxygen of A ring amide linkage) has been suggested to form hydrogen bonding with the NH group of the other amide linkage, producing a pseudo ring and thus stabilizing the structure. The relations were improved further using indicator and physicochemical variables and the present results are in good agreement with the previous findings of the Hansch analysis.

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