Structure-activity relationships in quinoline Reissert derivatives with HIV-1 reverse transcriptase inhibitory activity.

Drug design and discovery Pub Date : 1997-04-01
M Font, A Monge, I Ruiz, B Heras
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Abstract

The relationship between the chemical structure and the HIV-1 RT inhibitory activity has been studied for a series of quinoline derivatives. Two methods were used: a standard QSAR analysis, by combining the methods of Hansch and Free-Wilson, and an analysis using quantum chemistry indices as descriptor parameters, by the semiempirical method AM1. The equations obtained lead to the proposal that the activity of the compounds increases, mainly, with the presence of electron-withdrawing substituents in position 6 of the quinoline ring that cause a decrease in the energy from the molecular orbital LUMO. In turn, this fact leads to the proposal that the most important interaction of these compounds with the HIV-1 RT is a charge transfer type interaction, with the quinoline aromatic ring acting as acceptor.

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喹啉Reissert衍生物与HIV-1逆转录酶抑制活性的构效关系。
研究了一系列喹啉衍生物的化学结构与HIV-1 RT抑制活性之间的关系。采用两种方法:一种是结合Hansch和Free-Wilson方法的标准QSAR分析,另一种是采用半经验方法AM1的量子化学指标作为描述符参数的分析。得到的方程表明,化合物的活性增加,主要是由于喹啉环6位的吸电子取代基的存在,导致分子轨道LUMO的能量降低。反过来,这一事实导致了这些化合物与HIV-1 RT最重要的相互作用是电荷转移型相互作用的提议,喹啉芳香环作为受体。
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