Carbazole Derivatives Binding to Bcl-2 Promoter Sequence G-quadruplex

Pharmaceuticals Pub Date : 2024-07-09 DOI:10.3390/ph17070912
A. Głuszyńska, J. Kosman, Shang Shiuan Chuah, Marcin Hoffmann, S. Haider
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Abstract

In this study, we used ultraviolet-visible (UV-Vis), fluorescence, and circular dichroism (CD) techniques, as well as molecular modeling, to probe the interactions between carbazole derivatives and the G-quadruplex structure formed in the promoter region of gene Bcl-2. This gene is a rational target for anticancer therapy due to its high expression in a variety of tumors as well as resistance to chemotherapy-induced apoptosis. We employed a sequence with a specific dual G-to-T mutation that may form a mixed-type hybrid G-quadruplex structure in the Bcl-2 P1 promoter region. The three tested carbazole compounds differing in substitution on the nitrogen atom of carbazole interact with the Bcl-2 G-quadruplex by the same binding mode with the very comparable binding affinities in the order of 105 M−1. During absorption and fluorescence measurements, large changes in the ligand spectra were observed at higher G4 concentrations. The spectrophotometric titration results showed a two-step complex formation between the ligands and the G-quadruplex in the form of initial hypochromicity followed by hyperchromicity with a bathochromic shift. The strong fluorescence enhancement of ligands was observed after binding to the DNA. All of the used analytical techniques, as well as molecular modeling, suggested the π–π interaction between carbazole ligands and a guanine tetrad of the Bcl-2 G-quadruplex. Molecular modeling has shown differences in the interaction between each of the ligands and the tested G-quadruplex, which potentially had an impact on the binding strength.
咔唑衍生物与 Bcl-2 启动子序列 G-四重链的结合
在这项研究中,我们利用紫外可见光(UV-Vis)、荧光和圆二色性(CD)技术以及分子建模,探究了咔唑衍生物与 Bcl-2 基因启动子区形成的 G 型四重结构之间的相互作用。由于该基因在多种肿瘤中的高表达以及对化疗诱导的细胞凋亡的抗性,它是抗癌治疗的一个合理靶点。我们采用的序列具有特定的 G-T 双突变,可能在 Bcl-2 P1 启动子区域形成混合型混合 G-四联结构。测试的三种咔唑化合物在咔唑氮原子上的替代物不同,它们与 Bcl-2 G-四链体以相同的结合模式相互作用,结合亲和力非常接近,约为 105 M-1。在吸收和荧光测量过程中,当 G4 浓度较高时,配体光谱会发生很大变化。分光光度滴定结果表明,配体与 G 型四联体之间形成了两步复合物,最初为低色度,随后为高色度,并伴有浴色偏移。配体与 DNA 结合后,荧光会强烈增强。所有使用过的分析技术以及分子建模都表明,咔唑配体与 Bcl-2 G-quadruplex 的鸟嘌呤四元组之间存在 π-π 相互作用。分子建模显示,每种配体与所测试的 G-四联体之间的相互作用存在差异,这可能会对结合强度产生影响。
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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