HIV-1整合酶抑制剂与病毒DNA末端结合的光谱和计算研究

Léa El Khoury, Krystel El Hage, Jean‐Philip Piquemal, S. Fermandjian, R. Maroun, N. Gresh, Zeina Hobaika
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引用次数: 2

摘要

三种整合酶链转移抑制剂在临床上得到了广泛应用,分别是拉替拉韦(RAL)、艾维替拉韦(EVG)和多卢替拉韦(DTG)。整合酶抗性突变的出现限制了它们的治疗效率。如前所述,可以通过优先靶向逆转录病毒核碱基来提高药物对摄入体的亲和力,因为逆转录病毒核碱几乎不容易发生突变。我们报道了这三种药物对病毒DNA进行各向异性荧光滴定的实验结果。这些结果表明,它们对intasome的抑制活性的DTG>EVG>RAL排序与它们与逆转录病毒DNA的结合自由能∆Gs的排序相对应,并且这种排序仅受结合焓∆H(经历边际变化的熵)的控制。我们试图通过量子化学(QC)密度泛函理论计算由唯一卤代苯环和高度保守的逆转录病毒核碱基G4和C16组成的简化模型之间的分子间相互作用能来重现这种排序。这些计算表明,EVG的结合比DTG有小的偏好,而RAL排名第三。这表明药物的二酮酸部分与DNA的额外相互作用可能是必要的,以进一步实现DTG的优先结合。用可极化分子力学/动力学程序计算的相应∆Etotv值,即从头计算的片段间相互作用之和(SIBFA),显示出与该∆E(QC)排名的良好相关性。这些验证是朝着在DTG或EVG衍生物与完整嵌合体的复合物中使用可极化分子动力学模拟迈出的重要一步,目前开发和改进的大规模并行软件的出现推动了这一应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spectrometric and computational studies of the binding of HIV-1 integrase inhibitors to viral DNA extremities
Three integrase strand transfer inhibitors are in intensive clinical use, raltegravir (RAL), elvitegravir (EVG) and dolutegravir (DTG). The onset of integrase resistance mutations limits their therapeutic efficiency. As put forth earlier, the drug affinity for the intasome could be improved by targeting preferentially the retroviral nucleobases, which are little, if at all, mutation-prone. We report experimental results of anisotropy fluorescence titrations of viral DNA by these three drugs. These show the DTG > EVG > RAL ranking of their inhibitory activities of the intasome to correspond to that of their free energies of binding, ∆Gs, to retroviral DNA, and that such a ranking is only governed by the binding enthalpies, ∆H, the entropy undergoing marginal variations. We sought whether this ranking might be reproduced through quantum chemistry (QC) Density Functional Theory calculations of intermolecular interaction energies between simplified models consisting of sole halobenzene ring and the highly conserved retroviral nucleobases G4 and C16. These calculations showed that binding of EVG has a small preference over DTG, while RAL ranked third. This indicates that additional interactions of the diketoacid parts of the drugs with DNA could be necessary to further enable preferential binding of DTG. The corresponding ∆Etotvalues computed with a polarizable molecular mechanics/dynamics procedure, Sum of Interactions Between Fragments Ab initio computed (SIBFA), showed good correlations with this ∆E(QC) ranking. These validations are an important step toward the use of polarizable molecular dynamics simulations on DTG or EVG derivatives in their complexes with the complete intasome, an application now motivated and enabled by the advent of currently developed and improved massively parallel software.
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