治疗乳腺癌的表皮生长因子受体激酶抑制氨基烯酮;CADD 方法。

Deena Gladies Raymond Mohanraj, Manikandan Alagumuthu, Subha Chellam, Abishek Suresh Kumar, Tejaswini Nagaraj Poojari, Jeevitha Suresh Kumar, Palaniraja Subramaniam
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引用次数: 0

摘要

背景:计算机辅助药物发现(CADD)方法被用于开发一些表皮生长因子受体(EGFR)激酶抑制剂。表皮生长因子受体激酶的表达与基因组不稳定性、高增殖性、低激素受体水平和 HER2 过度表达密切相关。它在乳腺癌中更为常见。因此,表皮生长因子受体激酶是发现癌症新药的主要靶点之一:计算验证一些酰胺取代的β-氨基烯酮作为表皮生长因子受体抑制剂,并进行相关的体外抗癌试验:方法:我们使用分子对接、MD 模拟、DFT 计算和 ADMET 预测等工具,建立了初步的 SAR。在体外,我们使用 BT474(ER+HER2+)和 MCF-7 (ER-HER2)细胞系以及正常乳腺细胞上皮细胞(MFC-10a)进行抗癌研究和表皮生长因子受体激酶抑制试验研究。由于活性氧(ROS)在癌症发展中起着主要作用,我们还分析了这些化合物的抗氧化潜力:结果:在 11 个酰胺取代的 (Z)-β- 氨基烯酮(5a-k)家族中,化合物 5b、5c、5g 和 5h 在硅学和体外生物活性方面都表现出了很高的价值。值得注意的是,硅学结果与体外研究结果几乎一致:结论:我们建议对化合物 5b、5c、5g 和 5h 进行临床前和临床评估,将其作为未来的癌症治疗药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
EGFR Kinase Inhibiting Amino-enones for Breast Cancer; CADD Approach.

Background: The Computer-Aided Drug Discovery (CADD) approach was used to develop a few Epidermal Growth Factor Receptor (EGFR) kinase inhibitors. EGFR kinase expression is highly associated with genomic instability, higher proliferation, lower hormone receptor levels, and HER2 over-expression. It is more common in breast cancer. Thus, EGFR Kinase is one of the main targets in discovering new cancer medicine.

Objective: To computationally validate some amides substituted β-amino enones as EGFR inhibitors and to carry out associated in vitro anticancer agents.

Methods: We used tools such as molecular docking, MD simulations, DFT calculations, and ADMET predictions in silico to establish a preliminary SAR. In vitro, we used BT474 (ER+HER2+) and MCF-7 (ER-HER2) cell lines along with normal breast cell epithelial cells (MFC-10a) for anticancer studies and EGFR kinase inhibition assay studies. As the Reactive Oxygen Species (ROS) plays the main role in cancer development, we also analyzed the antioxidant potentials of these compounds.

Results: Among the family of eleven amides substituted (Z)-β-amino enones (5a-k), compounds 5b, 5c, 5g, and 5h showed valuable in silico and in vitro bio-activity. Remarkably, the in-silico results almost coincided with in vitro study results.

Conclusion: We recommend compounds 5b, 5c, 5g, and 5h for pre-clinical and clinical evaluation to establish them as future cancer therapeutics.

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