Transforming iodoquinol into broad spectrum anti-tumor leads: Repurposing to modulate redox homeostasis
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Academic Press Inc.
Abstract
We managed to repurpose the old drug iodoquinol to a series of novel anticancer 7-iodo-quinoline-5,8-diones. Twelve compounds were identified as inhibitors of moderate to high potency on an inhouse MCF-7 cell line, of which 2 compounds (5 and 6) were capable of reducing NAD level in MCF-7 cells in concentrations equivalent to half of their IC50s, potentially due to NAD(P)H quinone oxidoreductase (NQO1) inhibition. The same 2 compounds (5 and 6) were capable of reducing p53 expression and increasing reactive oxygen species levels, which further supports the NQO-1 inhibitory activity. Furthermore, 4 compounds (compounds 5–7 and 10) were qualified by the Development Therapeutic Program (DTP) division of the National Cancer Institute (NCI) for full panel five-dose in vitro assay to determine their GI50 on the 60 cell lines. All five compounds showed broad spectrum sub-micromolar to single digit micromolar GI50 against a wide range of cell lines. Cell cycle analysis and dual staining assays with annexin V-FITC/propidium iodide on MCF-7 cells confirmed the capability of the most active compound (compound 5) to induce cell cycle arrest at Pre-G1 and G2/M phases as well as apoptosis. Both cell cycle arrest and apoptosis were affirmed at the molecular level by the ability of compound 5 to enhance the expression levels of caspase-3 and Bax together with suppressing that of CDK1 and Bcl-2. Additionally, an anti-angiogenic effect was evident with compound 5 as supported by the decreased expression of VEGF. Interesting binding modes within NQO-1 active site had been identified and confirmed by both molecular docking and dymanic experiments. © 2021 Elsevier Inc.
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Anticancer, Drug likeness, Drug repurposing, Iodoquinol, Nqo-1, Antineoplastic agents, Apoptosis, Binding sites, Cell cycle checkpoints, Drug repositioning, Drug screening assays, antitumor, Humans, Mcf-7 cells, Molecular docking simulation, Nad, Nad(p)h dehydrogenase (quinone), Oxidation-reduction, Reactive oxygen species, Structure-activity relationship, 2 [(7 iodo 5,8 dioxo 5,8 dihydroquinolin 6 yl)amino]benzoic acid, 4 [(7 iodo 5,8 dioxo 5,8 dihydroquinolin 6 yl)amino]benzoic acid, 4 [(7 iodo 5,8 dioxo 5,8 dihydroquinoline 6 yl)amino] n [thiazol 2 yl]benzenesulfonamide, 4 [(7 iodo 5,8 dioxo 5,8 dihydroquinoline 6 yl)amino]benzenesulphonamide, 6 [(4 bromophenyl)amino] 7 iodoquinoline 5,8 dione, 6 [(4 chlorophenyl)amino] 7 iodoquinoline 5,8 dione, 7 iodo 6 (piperazin 1 yl)quinoline 5,8 dione, 7 iodo 6 (pyridin 2 ylamino)quinoline 5,8 dione, 7 iodo 6 morpholinoquinoline 5,8 dione, 7 iodo 6 [(4 methoxyphenyl)amino)quinoline 5,8 dione, Antineoplastic agent, Caspase 3, Cyclin dependent kinase 1, Diiodohydroxyquin, Doxorubicin, Fluorouracil, Lipocortin 5, N carbamimidoyl 4 [(7 iodo 5,8 dioxo 5,8 dihydroquinoline 6 yl)amino]benzenesulfonamide, N [2,6 dimethylpyrimidin 4 yl] 4 [(7 iodo 5,8 dioxo 5,8 dihydroquinolin 6 yl)amino]benzenesulfonamide, Nicotinamide adenine dinucleotide, Protein bax, Protein bcl 2, Protein p53, Reactive oxygen metabolite, Reduced nicotinamide adenine dinucleotide, Reduced nicotinamide adenine dinucleotide (phosphate) dehydrogenase (quinone), Unclassified drug, Vasculotropin, Nqo1 protein, human, 786-o cell line, A-498 cell line, Achn cell line, Antiangiogenic activity, Antineoplastic activity, Antiproliferative activity, Article, Bt-549 cell line, Caki-1 cell line, Carbon nuclear magnetic resonance, Ccrf-cem cell line, Cell cycle arrest, Cell cycle g1 phase, Colo 205 cell line, Comparative study, Controlled study, Cytotoxicity, Drug potency, Drug synthesis, Du145 cell line, Ekvx cell line, Enzyme activity, Female, G2 phase cell cycle checkpoint, Gi50, Hcc2998 cell line, Hct 116 cell line, Hct 15 cell line, Hl-60 cell line, Hop-62 cell line, Hop-92 cell line, Hs 578t cell line, Ht-29 cell line, Human, Human cell, Ic50, Igrov-1 cell line, In vitro study, K-562 cell line, Km12 cell line, Lc50, Lox-imvi cell line, M14 cell line, Malme-3m cell line, Mcf-7 cell line, Mda-mb-231 cell line, Mda-mb-435 cell line, Mda-mb-468 cell line, Melting point, Molecular docking, Molecular dynamics, Molt-4 cell line, National health organization, Nci-adr-res cell line, Nci-h226 cell line, Nci-h23 cell line, Nci-h460 cell line, Nci-h522 cell line, Ovcar-3 cell line, Ovcar-4 cell line, Ovcar-5 cell line, Ovcar-8 cell line, Oxidation reduction reaction, Pc-3 ml cell line, Percentage of cells in g0/g1 phase, Percentage of cells in g2/m phase, Protein expression, Protein expression level, Proton nuclear magnetic resonance, Room temperature, Rpmi-8226 cell line, Rxf 393l cell line, Scanning electron microscopy, Sf268 cell line, Sf295 cell line, Sf539 cell line, Sk-mel-2 cell line, Sk-mel-28 cell line, Sk-mel-5 cell line, Sk-ov-3 cell line, Sn12c cell line, Snb-19 cell line, Snb-75 cell line, Sw620 cell line, T-47d cell line, Uacc-257 cell line, Uacc-62 cell line, Uo-31 cell line, Binding site, Cell cycle checkpoint, Chemistry, Drug effect, Drug screening, Metabolism, Structure activity relation