Effect of Withaferin-A, Withanone, and Caffeic Acid Phenethyl Ester on DNA Methyltransferases: Potential in Epigenetic Cancer Therapy.

IF 2.9 4区 医学 Q3 CHEMISTRY, MEDICINAL Current topics in medicinal chemistry Pub Date : 2024-01-01 DOI:10.2174/1568026623666230726105017
Vipul Kumar, Jaspreet Kaur Dhanjal, Anissa Nofita Sari, Mallika Khurana, Sunil C Kaul, Renu Wadhwa, Durai Sundar
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Abstract

Background: DNA methyltransferases (DNMTs) have been reported to be potential drug targets in various cancers. The major hurdle in inhibiting DNMTs is the lack of knowledge about different DNMTs and their role in the hypermethylation of gene promoters in cancer cells. Lack of information on specificity, stability, and higher toxicity of previously reported DNMT inhibitors is the major reason for inadequate epigenetic cancer therapy. DNMT1 and DNMT3A are the two DNMTs that are majorly overexpressed in cancers.

Objective: In this study, we have presented computational and experimental analyses of the potential of some natural compounds, withaferin A (Wi-A), withanone (Wi-N), and caffeic acid phenethyl ester (CAPE), as DNMT inhibitors, in comparison to sinefungin (SFG), a known dual inhibitor of DNMT1 and DNMT3A.

Methods: We used classical simulation methods, such as molecular docking and molecular dynamics simulations, to investigate the binding potential and properties of the test compounds with DNMT1 and DNMT3A. Cell culture-based assays were used to investigate the inactivation of DNMTs and the resulting hypomethylation of the p16INK4A promoter, a key tumour suppressor that is inactivated by hypermethylation in cancer cells, resulting in upregulation of its expression.

Results: Among the three test compounds (Wi-A, Wi-N, and CAPE), Wi-A showed the highest binding affinity to both DNMT1 and DNMT3A; CAPE showed the highest affinity to DNMT3A, and Wi-N showed a moderate affinity interaction with both. The binding energies of Wi-A and CAPE were further compared with SFG. Expression analysis of DNMTs showed no difference between control and treated cells. Cell viability and p16INK4A expression analysis showed a dose-dependent decrease in viability, an increase in p16INK4A, and a stronger effect of Wi-A compared to Wi-N and CAPE.

Conclusion: The study demonstrated the differential binding ability of Wi-A, Wi-N, and CAPE to DNMT1 and DNMT3A, which was associated with their inactivation, leading to hypomethylation and desilencing of the p16INK4A tumour suppressor in cancer cells. The test compounds, particularly Wi-A, have the potential for cancer therapy.

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Withaferin-A、Withanone 和咖啡酸苯乙酯对 DNA 甲基转移酶的影响:表观遗传学癌症疗法的潜力。
背景:据报道,DNA 甲基转移酶(DNMTs)是各种癌症的潜在药物靶点。抑制 DNMTs 的主要障碍是缺乏对不同 DNMTs 及其在癌细胞基因启动子超甲基化中作用的了解。缺乏有关特异性、稳定性和先前报道的 DNMT 抑制剂毒性较高的信息,是表观遗传癌症疗法不充分的主要原因。DNMT1和DNMT3A是癌症中主要过度表达的两种DNMT:在这项研究中,我们通过计算和实验分析了一些天然化合物(withaferin A (Wi-A)、withanone (Wi-N)和咖啡酸苯乙酯 (CAPE))作为 DNMT 抑制剂的潜力,并与已知的 DNMT1 和 DNMT3A 双重抑制剂正弦霉素 (SFG) 进行了比较:方法:我们采用分子对接和分子动力学模拟等经典模拟方法研究了测试化合物与 DNMT1 和 DNMT3A 的结合潜力和特性。利用基于细胞培养的实验研究了DNMTs的失活及其导致的p16INK4A启动子的低甲基化,p16INK4A是一种关键的肿瘤抑制因子,在癌细胞中因高甲基化而失活,导致其表达上调:在三种测试化合物(Wi-A、Wi-N和CAPE)中,Wi-A与DNMT1和DNMT3A的结合亲和力最高;CAPE与DNMT3A的结合亲和力最高;Wi-N与DNMT1和DNMT3A的结合亲和力中等。Wi-A 和 CAPE 的结合能与 SFG 进行了进一步比较。DNMTs的表达分析表明,对照细胞和处理过的细胞之间没有差异。细胞存活率和 p16INK4A 表达分析表明,与 Wi-N 和 CAPE 相比,Wi-A 会导致细胞存活率呈剂量依赖性下降,p16INK4A 会增加,而且 Wi-A 的作用更强:研究表明,Wi-A、Wi-N和CAPE与DNMT1和DNMT3A的结合能力不同,这与它们的失活有关,从而导致癌细胞中p16INK4A肿瘤抑制因子的低甲基化和去丝氨酸化。测试化合物,尤其是 Wi-A 具有治疗癌症的潜力。
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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来源期刊
CiteScore
6.40
自引率
2.90%
发文量
186
审稿时长
3-8 weeks
期刊介绍: Current Topics in Medicinal Chemistry is a forum for the review of areas of keen and topical interest to medicinal chemists and others in the allied disciplines. Each issue is solely devoted to a specific topic, containing six to nine reviews, which provide the reader a comprehensive survey of that area. A Guest Editor who is an expert in the topic under review, will assemble each issue. The scope of Current Topics in Medicinal Chemistry will cover all areas of medicinal chemistry, including current developments in rational drug design, synthetic chemistry, bioorganic chemistry, high-throughput screening, combinatorial chemistry, compound diversity measurements, drug absorption, drug distribution, metabolism, new and emerging drug targets, natural products, pharmacogenomics, and structure-activity relationships. Medicinal chemistry is a rapidly maturing discipline. The study of how structure and function are related is absolutely essential to understanding the molecular basis of life. Current Topics in Medicinal Chemistry aims to contribute to the growth of scientific knowledge and insight, and facilitate the discovery and development of new therapeutic agents to treat debilitating human disorders. The journal is essential for every medicinal chemist who wishes to be kept informed and up-to-date with the latest and most important advances.
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