Yilmaz Ayse Mine, Jannuzzi Ayse Tarbin, Biswas Abanish, Mondal Subodh, Basavanakatti Vinay N, Yıldırım Hatice, Yıldız Mahmut, Bayrak Nilüfer, Jayaprakash Venkatesan, TuYuN Amaç Fatih
Department of Biochemistry, School of Medicine/Genetic and Metabolic Diseases Research and Investigation Center, Marmara University, Istanbul, Türkiye.
Department of Pharmaceutical Toxicology, Faculty of Pharmacy, Istanbul University, Istanbul, Türkiye.
Chem Biol Drug Des. 2025 Jun;105(6):e70139. doi: 10.1111/cbdd.70139.
A series of aminated quinolinequinones linked to piperazine analogs (QQ1-7) were synthesized and screened against the full panel of National Cancer Institute (NCI) cancer cell lines for their potential as cytotoxic agents. The Developmental Therapeutics Program of the NCI analyzed the NCI-60 screening results and revealed that seven QQs were potent inhibitors of cancer cell growth across several cell lines, advancing them to the five-dose assay. Encouraged by the NCI five-dose assay results, the cytotoxicity of the selected QQs (QQ1 and QQ4) was further studied in three cancer cell lines-HCT-116 (colon cancer), ACHN (renal cancer), MCF7, and T-47D (breast cancer)-as well as in a normal cell line (HUVEC) for a deeper understanding. QQ1 was the hit compound for ACHN cells with an IC value of 1.55 μM. QQ1 could inhibit ACHN cell proliferation, induce oxidative stress, and cause cell cycle arrest in ACHN cells. QQ1 did not affect the apoptotic value in ACHN cells. Oral bioavailability was poor for both QQ1 and QQ4 in vivo in rats due to faster intrinsic hepatic clearance in comparison with humans, as evidenced by in vitro metabolic studies with rat and human liver microsomes. Molecular docking simulation with putative target CDC25A revealed the interaction of QQ1 and QQ4 with active site residues responsible for substrate recognition.
合成了一系列与哌嗪类似物相连的胺化喹啉醌(QQ1 - 7),并针对美国国立癌症研究所(NCI)的全套癌细胞系进行筛选,以评估其作为细胞毒性剂的潜力。NCI的发展治疗学项目分析了NCI - 60筛选结果,发现七种QQ在多个细胞系中是癌细胞生长的有效抑制剂,从而进入五剂量试验阶段。受NCI五剂量试验结果的鼓舞,对选定的QQ(QQ1和QQ4)在三种癌细胞系——HCT - 116(结肠癌)、ACHN(肾癌)、MCF7和T - 47D(乳腺癌)——以及一种正常细胞系(HUVEC)中进行了进一步的细胞毒性研究,以加深了解。QQ1是ACHN细胞的活性化合物,IC值为1.55 μM。QQ1可以抑制ACHN细胞增殖,诱导氧化应激,并导致ACHN细胞的细胞周期停滞。QQ1不影响ACHN细胞的凋亡值。由于与人类相比,大鼠体内肝脏固有清除速度更快,QQ1和QQ4在大鼠体内的口服生物利用度较差,大鼠和人肝微粒体的体外代谢研究证明了这一点。与假定靶点CDC25A的分子对接模拟揭示了QQ1和QQ4与负责底物识别的活性位点残基之间的相互作用。
