Hansch analysis of antimalarial cyclic peroxy ketals with physicochemical and electrotopological parameters.

Drug design and discovery Pub Date : 2000-01-01
K Roy, D K Pal, C Sengupta
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Abstract

Hansch analysis of some antimalarial cyclic peroxy ketals (IV) having structural variations at the para substituted phenyl ring and an alicyclic ring of different size reveals that electronic and steric parameters of the phenyl ring substituents are important for explaining the variation in the activity while hydrophobicity parameter is of little significance. Electron withdrawing substituents with higher MR (molar refractivity) or V(W) (van der Waals volume) are preferred for the activity. Use of structural descriptors suggests that presence of a seven membered alicyclic ring attached to the peroxy bridge containing ring is conducive to the activity. Application of electrotopological state atom index (ETSAI) suggests a pharmacophore containing the peroxy bridge. This is corroborated by earlier observation on importance of oxygen atoms of the peroxy linkage of artemisinin for antimalarial activity. Although incorporation of ETSAI into Hansch model does not improve the relations, the electronic parameter sigma is found to be significantly correlated with it.

抗疟药环过氧酮的理化和电拓扑参数的Hansch分析。
对一些在对取代苯环和不同尺寸的脂环上存在结构变化的抗疟药环过氧酮(IV)的Hansch分析表明,苯环取代基的电子和空间参数是解释活性变化的重要参数,而疏水性参数的意义不大。具有较高MR(摩尔折射率)或V(W)(范德华体积)的吸电子取代基的活性较好。结构描述符的使用表明,与含过氧桥环相连的七元脂环有利于活性的存在。电拓扑状态原子指数(ETSAI)的应用表明药效团含有过氧桥。早期对青蒿素过氧链的氧原子对抗疟活性的重要性的观察证实了这一点。虽然将ETSAI纳入Hansch模型并没有改善关系,但发现电子参数sigma与其显著相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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