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.
New anti-ovarian cancer quinolone derivatives acting by modulating microRNA processing machinery / Felicetti, T., Di Iacovo, N., Della Fazia, M.a., Piobbico, D., Pieroni, S., Pacetti, M., Yu, J.l., Sun, Y.l., Massari, S., Barreca, M.l., Sabatini, S., Tabarrini, O., Cecchetti, V., Wang, F., Pommier, Y., Morlando, M., Servillo, G., Manfroni, G.. - In: RSC MEDICINAL CHEMISTRY. - ISSN 2632-8682. - (2024). [10.1039/d4md00649f]
New anti-ovarian cancer quinolone derivatives acting by modulating microRNA processing machinery
Morlando, M
;
2024
Abstract
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.| File | Dimensione | Formato | |
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