Identification of G-Quadruplex Inducers Usinga Simple, Inexpensiveand Rapid High Throughput Assay, and TheirInhibition of Human Telomerase.

Q2 Pharmacology, Toxicology and Pharmaceutics
Open Medicinal Chemistry Journal Pub Date : 2012-01-01 Epub Date: 2012-10-19 DOI:10.2174/1874104501206010020
Maria Florencia Sassano, Alexander P Schlesinger, Michael B Jarstfer
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引用次数: 9

Abstract

Telomeres are protein and DNA complexes located atchromosome ends. Telomeric DNA is composed of a double stranded region of repetitive DNA followed by single-stranded 3' extension of aG-rich sequence. Single-stranded G-rich sequencescan fold into G-quadruplex structures,and molecules that stabilize G-quadruplexes are known to inhibit the enzyme telomerase and disrupt telomere maintenance. Because telomere maintenance is required for proliferation of cancer cells, G-quadruplex stabilizers have become attractive prospects for anticancer drug discovery.However, telomere-targeting G-quadruplex ligands have yet to enter the clinic owing in part to poor pharmacokinetics and target selectivity. Increasing the pharmacophore diversity of G-quadruplex and specifically telomeric-DNA targeting agents should assist in overcoming these shortcomings. In this work, we report the identification and validation ofligands that bind telomeric DNA and induce G-quadruplex formationusing the NCI Diversity Set I, providing validation of anextremely simple, rapid and high-throughput screen using FRET technology. Hits from the screen were validated by examining telomerase inhibition and G-quadruplex inductionusing CD spectroscopy and DNA polymerase stop assays. We show that two known DNA binding molecules, ellipticine derivativeNSC 176327 (apyridocarbazole) and NSC 305831 (an antiparasitic hetero-cyclediamidine referred to as furamidine and DB75),are selective induceG-quadruplex formation in the human telomeric sequence and bind telomeric DNA quadruplexes in the absence of stabilizing monovalent cations with molar ratios(molecule: DNA)of 4:1and 1.5:1, respectively.

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用一种简单、廉价、快速、高通量的方法鉴定g -四重诱导剂及其对人类端粒酶的抑制作用
端粒是位于染色体末端的蛋白质和DNA复合物。端粒DNA由重复DNA的双链区域和富银序列的单链3'延伸组成。单链富含g的序列可以折叠成g -四重结构,而稳定g -四重结构的分子已知可以抑制端粒酶并破坏端粒的维持。由于端粒维持是癌细胞增殖所必需的,g -四重体稳定剂已成为抗癌药物发现的诱人前景。然而,端粒靶向g -四重体配体尚未进入临床,部分原因是药代动力学和靶标选择性差。增加g -四重体的药效团多样性,特别是端粒- dna靶向药物有助于克服这些缺点。在这项工作中,我们报告了使用NCI多样性集I识别和验证结合端粒DNA并诱导g -四重体形成的配体,使用FRET技术提供了一个非常简单,快速和高通量的筛选验证。通过使用CD光谱和DNA聚合酶停止测定检测端粒酶抑制和g -四重体诱导来验证筛选结果。我们发现两种已知的DNA结合分子,椭圆衍生物vensc 176327 (apyridocarbazole)和NSC 305831(一种抗寄生虫的杂环二胺,称为furamidine和DB75),在人类端粒序列中选择性诱导g -四联体的形成,并在没有稳定的一价阳离子的情况下结合端粒DNA四联体,摩尔比(分子:DNA)分别为4:1和1.5:1。
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来源期刊
Open Medicinal Chemistry Journal
Open Medicinal Chemistry Journal Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
4.40
自引率
0.00%
发文量
4
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