Design, Synthesis, Characterisation, and Evaluation of Substituted Quinolin-2-one Derivatives as Possible Anti-lung Cancer Agents.

Current drug discovery technologies Pub Date : 2024-01-01 DOI:10.2174/0115701638258479231220051227

Riya Swar, Prachita Gauns Dessai, Shivalingrao MamleDesai, Sachin Chandavarkar, Soniya Phadte, Bheemanagouda Biradar

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Abstract

Background: According to 2022, the estimated number of cancer cases in India was found to be 1,461,427. Lung cancers are the leading cause of death among Indian males. Research on cancer has been conducted to develop better treatments that are safe and effective and could be used to diagnose cancer at an early stage. It was found that quinolin-2-one possesses anticancer activity, which led us to synthesize substituted quinolin-2-one derivatives that can provide a longer future to cancer patients and decrease the risk of dying from cancer.

Objective: This study aimed to carry out the design, synthesis, characterisation, and evaluation of novel substituted quinolin-2-one analogues as possible anti-lung cancer agents.

Methods: Compound III a/III b on reaction with acids, sodium acetate and ethylchloroacetate, substituted benzaldehyde, phthalic anhydride, and 2N sodium hydroxide yielded compounds IV a/ IV b, V a/ V b, VI a/ VI b, VI c/ VI d, VI e/ VI f, VII a/ VII b, and VIII a/ VIII b, respectively.

Result: Among all the synthesised derivatives, compound VII a was found to be most potent with a MolDock score of -132.78 as compared to standard drug imatinib (-114.37) and active ligand 4- anilinoquinazoline (-126.71). All the synthesized derivatives showed a good ADME profile, but compound VII a showed the best ADME data among all the synthesised derivatives. All the synthesised compounds were tested for their in vitro anticancer activity against the Hop-62 (human lung cancer) cell line, out of which compound VII a was found to be most potent, with a percent control growth of -51.7% at a concentration of 80 μg/ml, which was in comparable to the positive control, Adriamycin (-70.5%) and standard imatinib (-84.0%).

Conclusion: Compound VII a showed the highest MolDock score and was most potent against human lung cancer cell line Hop-62.

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设计、合成、表征和评估取代的喹啉-2-酮衍生物作为可能的抗肺癌药物。

背景：根据 2022 年的数据，印度的癌症病例估计为 1,461,427 例。肺癌是印度男性的主要死因。对癌症的研究是为了开发出更好的治疗方法，既安全有效，又能用于早期诊断癌症。研究发现喹啉-2-酮具有抗癌活性，这促使我们合成取代的喹啉-2-酮衍生物，为癌症患者提供更长远的未来，降低死于癌症的风险：本研究旨在设计、合成、表征和评估可能作为抗肺癌药物的新型取代喹啉-2-酮类似物：方法：化合物 III a/III b 与酸、醋酸钠和氯乙酸乙酯、取代苯甲醛、邻苯二甲酸酐和 2N 氢氧化钠反应后，分别得到化合物 IV a/IV b、V a/V b、VI a/ VI b、VI c/ VI d、VI e/ VI f、VII a/ VII b 和 VIII a/ VIII b：在所有合成的衍生物中，化合物 VII a 的 MolDock 得分为-132.78，与标准药物伊马替尼（-114.37）和活性配体 4- anilinoquinazoline（-126.71）相比，其药效最强。所有合成的衍生物都显示出良好的 ADME 曲线，但化合物 VII a 在所有合成的衍生物中显示出最佳的 ADME 数据。所有合成的化合物都对 Hop-62（人肺癌）细胞系进行了体外抗癌活性测试，其中化合物 VII a 的抗癌活性最强，在浓度为 80µg/ml 时，其控制生长百分率为 -51.7%，与阳性对照阿霉素（-70.5%）和标准伊马替尼（-84.0%）相当：结论：化合物 VII a 的 MolDock 得分最高，对人类肺癌细胞株 Hop-62 的作用最强。

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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Current drug discovery technologies

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