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去甲基 MLN944 细胞毒素类似物与 DNA 复合物的结构与动态:当一个甲基不是无效基团时的活性的深入了解。

Structures and dynamics of DNA complexes of the desmethyl analog of the cytotoxin MLN944: Insights into activity when a methyl isn't futile.

机构信息

Department of Pharmacology, School of Medical Sciences, Faculty of Medicine, UNSW Sydney, Sydney, New South Wales, Australia.

School of Chemistry, Faculty of Science, UNSW Sydney, Sydney, New South Wales, Australia.

出版信息

J Mol Recognit. 2020 Aug;33(8):e2843. doi: 10.1002/jmr.2843. Epub 2020 Apr 6.

Abstract

Structure activity relationships for tricyclic-carboxamide topoisomerase II poisons indicate that cytotoxicity is enhanced by the presence of methyl, and other, groups in the position peri to the carboxamide. Linked dimers of phenazine-1-carboxamides are potent cytotoxins and one phenazine dimer, MLN944 (alternatively XR5944), has been in clinical trial. MLN944 is a template inhibitor of transcription, whereas corresponding monomers are not. Nevertheless, its cytotoxic potency is also diminished by removal of its peri methyl groups. Here, we describe NMR and molecular dynamic studies of the interaction of desmethyl MLN944 with d(ATGCAT) , d(TATGCATA) , and d(TACGCGTA) to investigate the influence of the nine-methyl group on the structure of MLN944 complexes. As with MLN944, the carboxamide group hydrogen bonds to the phenazine ring nitrogen, the ligand sandwiches the central GC base pairs in the major groove, and the protonated linker amines hydrogen bond primarily to the O6 atom of the guanines. Molecular dynamics studies reveal that the linker exists in multiple conformations, none of which produce an ideal set of hydrogen bonds. In distinction, however, the carboxamide-to-phenazine ring nitrogen hydrogen bond is weaker, the overall helix winding is less and the NMR resonances are broader in the desmethyl complexes. Exchange between free and complexed DNA, quantified using two-dimensional NOESY spectra, is faster for the desmethyl MLN944 complexes than for MLN944 complexes. Overall, the data suggest that desmethyl MLN944 DNA complexes are "looser" and more unwound at the binding site, leading to faster dissociation rates, which could account for the diminished efficacy of the desmethyl analog.

摘要

三环羧酰胺拓扑异构酶 II 抑制剂的构效关系表明,在靠近羧酰胺的位置存在甲基和其他基团会增强细胞毒性。苯并嗪-1-羧酰胺的连接二聚体是有效的细胞毒素,其中一种苯并嗪二聚体,MLN944(也称为 XR5944)已在临床试验中。MLN944 是转录的模板抑制剂,而相应的单体则不是。然而,去除其邻位甲基基团也会降低其细胞毒性。在这里,我们描述了 NMR 和分子动力学研究去甲基 MLN944 与 d(ATGCAT)、d(TATGCATA)和 d(TACGCGTA)相互作用的情况,以研究九个甲基对 MLN944 复合物结构的影响。与 MLN944 一样,羧酰胺基团与苯并嗪环氮原子形成氢键,配体夹在中央 GC 碱基对的大沟中,质子化的连接体胺主要与鸟嘌呤的 O6 原子形成氢键。分子动力学研究表明,连接体存在多种构象,没有一种构象能产生理想的氢键。然而,与 MLN944 复合物相比,羧酰胺与苯并嗪环氮原子的氢键较弱,整体螺旋缠绕较少,NMR 共振较宽。使用二维 NOESY 谱定量交换自由和复合物 DNA 的结果表明,去甲基 MLN944 复合物的交换速度比 MLN944 复合物快。总的来说,数据表明去甲基 MLN944 DNA 复合物在结合部位“更松”且更解旋,导致更快的解离速率,这可能解释了去甲基类似物效力降低的原因。

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