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探索硝化 N-取代-4-羟基-2-喹诺酮-3-甲酰胺的抗癌潜力:合成、生物学评估及计算分析

Exploring the anticancer potential of nitrated N-substituted-4-hydroxy-2-quinolone-3-carboxamides: synthesis, biological assessment, and computational analysis.

作者信息

Islim Reem A, Hamadeh Nisreen S, Khalaf Reema Abu, Hajjo Rima, Bardaweel Sanaa K, Sweidan Kamal, Al-Zuheiri Aya M, Balaji Swapnaa, Tiwari Amit K, Abushaikha Ghassan, Sabbah Dima A

机构信息

Department of Pharmacy, Faculty of Pharmacy, Al-Zaytoonah University of Jordan, P.O. Box 130, Amman, 11733, Jordan.

Laboratory for Molecular Modeling, Division of Chemical Biology and Medicinal Chemistry, Eshelman School of Pharmacy, The University of North Carolina at Chapel Hill, Chapel Hill, NC, 27599, USA.

出版信息

BMC Chem. 2025 Aug 22;19(1):247. doi: 10.1186/s13065-025-01616-w.

DOI:10.1186/s13065-025-01616-w
PMID:40846973
Abstract

Cancer remains the second leading cause of mortality globally, necessitating the development of novel therapeutic agents. In this work, we synthesized 34 derivatives of nitrated N-substituted-4-hydroxy-2-quinolone-3-carboxamides, which were spectroscopically analyzed using FT-IR, NMR (H and C), and elemental analysis. Derivatives tailored with m-CF (10), m-OCH (13), m-Cl (16), and m-F (20) benzyl moiety exhibited distinctive cytotoxicity against human colon cancer (HCT-116) cells with IC of 23.41, 27.14, 28.43, and 22.95 µM. Analogue 11 showed 100% inhibitory activity against ovarian cancer (NCI/ADR-RES), colon cancer (COLO 205), CNS cancer (SF-295), and melanoma (SK-MEL-2) cells. Cheminformatics analysis further revealed insights into the physicochemical and drug-like properties of these analogues, highlighting their potential to bind PI3Kα through alignment with key pharmacophoric features required for effective enzyme interaction. Molecular docking studies against both wild-type and mutant PI3Kα elucidated binding interactions, suggesting that specific substituents enhance selectivity and potency. This study highlights the therapeutic potential of quinolone derivatives in targeting cancer-related pathways and contributes valuable data to the ongoing search for more effective anticancer therapies.

摘要

癌症仍然是全球第二大死亡原因,因此需要开发新型治疗药物。在这项工作中,我们合成了34种硝化的N-取代-4-羟基-2-喹诺酮-3-甲酰胺衍生物,并使用傅里叶变换红外光谱(FT-IR)、核磁共振(氢谱和碳谱)以及元素分析对其进行了光谱分析。带有间位三氟甲基(10)、间位甲氧基(13)、间位氯(16)和间位氟(20)苄基部分的衍生物对人结肠癌细胞(HCT-116)表现出独特的细胞毒性,其半数抑制浓度(IC)分别为23.41、27.14、28.43和22.95 μM。类似物11对卵巢癌(NCI/ADR-RES)、结肠癌(COLO 205)、中枢神经系统癌(SF-295)和黑色素瘤(SK-MEL-2)细胞显示出100%的抑制活性。化学信息学分析进一步揭示了这些类似物的物理化学和类药性质,突出了它们通过与有效酶相互作用所需的关键药效特征对齐来结合磷脂酰肌醇-3-激酶α(PI3Kα)的潜力。针对野生型和突变型PI3Kα的分子对接研究阐明了结合相互作用,表明特定取代基可提高选择性和效力。这项研究突出了喹诺酮衍生物在靶向癌症相关途径方面的治疗潜力,并为正在进行的寻找更有效抗癌疗法的研究提供了有价值的数据。

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