基于睾酮的铂类药物通过凹槽面和插层相互作用结合对DNA构象的干扰:分子动力学模拟研究

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology
Shanshan Cui, Yan Wang, Guangju Chen
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引用次数: 5

摘要

通过形成双功能链内1,2 GpG加合物,探索与传统顺铂的结构和相互作用模式不同的新型铂基抗癌药物,单功能铂+?具有广泛非共价相互作用的DNA加合物已被研究。据报道,单功能睾酮类铂类药物具有较高的抗癌活性。此外,我们还发现,睾酮类铂制剂可以导致DNA螺旋发生显着的解绕和弯曲,而非睾酮类铂制剂。然而,这些铂类药物与DNA在原子水平上的相互作用机制尚不清楚。在本研究中,我们采用分子动力学(MD)模拟和DNA构象动力学计算来研究睾酮基铂的DNA畸变特性。DNA,改进的基于睾酮的铂?DNA和非睾酮铂?+?DNA加合物。结果表明,改进的柔性睾酮铂与DNA分子的插层相互作用比刚性睾酮铂与DNA分子的槽面相互作用能引起更大的DNA构象畸变。对非睾酮铂制剂的进一步研究表明,由于该制剂中缺乏睾酮配体,DNA构象发生了微不足道的变化。在DNA动力学分析的基础上,讨论了与DNA凹槽参数变化和DNA碱基对氢键破坏有关的DNA碱基运动。改进的睾酮基铂试剂中的柔性连接体与改进的睾酮基铂试剂中的DNA发生插入性相互作用。DNA加合物不同于睾酮类铂剂中由刚性连接体引起的槽面相互作用。目前的研究提供了DNA构象在原子水平上受睾酮铂复合物影响的有用信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Disturbance of DNA conformation by the binding of testosterone-based platinum drugs via groove-face and intercalative interactions: a molecular dynamics simulation study

Disturbance of DNA conformation by the binding of testosterone-based platinum drugs via groove-face and intercalative interactions: a molecular dynamics simulation study

To explore novel platinum-based anticancer agents that are distinct from the structure and interaction mode of the traditional cisplatin by forming the bifunctional intrastrand 1,2 GpG adduct, the monofunctional platinum?+?DNA adducts with extensive non-covalent interactions had been studied. It was reported that the monofunctional testosterone-based platinum(II) agents present the high anticancer activity. Moreover, it was also found that the testosterone-based platinum agents could cause the DNA helix to undergo significant unwinding and bending over the non-testosterone-based platinum agents. However, the interaction mechanisms of these platinum agents with DNA at the atomic level are not yet clear so far.

In the present work, we used molecular dynamics (MD) simulations and DNA conformational dynamics calculations to study the DNA distortion properties of the testosterone-based platinum?+?DNA, the improved testosterone-based platinum?+?DNA and the non-testosterone-based platinum?+?DNA adducts. The results show that the intercalative interaction of the improved flexible testosterone-based platinum agent with DNA molecule could cause larger DNA conformational distortion than the groove-face interaction of the rigid testosterone-based platinum agent with DNA molecule. Further investigations for the non-testosterone-based platinum agent reveal the occurrence of insignificant change of DNA conformation due to the absence of testosterone ligand in such agent. Based on the DNA dynamics analysis, the DNA base motions relating to DNA groove parameter changes and hydrogen bond destruction of DNA base pairs were also discussed in this work.

The flexible linker in the improved testosterone-based platinum agent causes an intercalative interaction with DNA in the improved testosterone-based platinum?+?DNA adduct, which is different from the groove-face interaction caused by a rigid linker in the testosterone-based platinum agent. The present investigations provide useful information of DNA conformation affected by a testosterone-based platinum complex at the atomic level.

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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
发文量
0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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