New anti-ovarian cancer quinolone derivatives acting by modulating microRNA processing machinery

MicroRNAs (miRNAs) play a crucial role in ovarian cancer (OC) pathogenesis and miRNA processing can be the object of pharmacological intervention. By exploiting our in-house quinolone library, we combined a cell-based screening with medicinal chemistry efforts, ultimately leading to derivative 33 with anti-OC activity against distinct cell lines (GI50 values 13.52-31.04 mu M) and CC50 Wi-38 = 142.9 mu M. Compound 33 retained anticancer activity against additional cancer cells and demonstrated a synergistic effect with cisplatin against cisplatin-resistant A2780 cells. Compound 33 bound TRBP by SPR (KD = 4.09 mu M) and thermal shift assays and its activity was TRBP-dependent, leading to modulation of siRNA and miRNA maturation. Derivative 33 exhibited augmented potency against OC cells and a stronger binding affinity for TRBP compared to enoxacin, the sole quinolone identified as a modulator of miRNA maturation. Consequently, 33 represents a promising template for developing novel anti-OC agents with a distinctive mechanism of action. From a quinolone library and subsequent medicinal chemistry optimization, we identified the fluoroquinolone 33, which demonstrated anti-ovarian cancer activity through a mechanism involving TRBP and resulting in the modulation of miRNA maturation.