In search of semisynthetic derivatives with increased antitumor activity, we condensed sulforaphane (SFR) with rhodol, a fluorophore platform capable of modifying the intracellular trafficking and pharmacokinetics of the linked molecules. The two tested derivatives, namely MG28 and MG46, showed a far higher, as compared to SFR, cytotoxicity toward cancer cells. Apoptotic cell death was preceded by the extensive generation of DNA lesions, which were repaired relatively slowly and caused formation of micronuclei. Unlike SFR, rhodol-SFR conjugates' DNA lesions resulted from direct interactions with nuclear DNA. Overall, MG28 and MG46 exhibit a remarkable cytotoxic effect, which is the likely consequence of their direct and intense DNA damaging activity, i.e., a novel and peculiar mechanism arising from the conjugation of the parental rhodol and SFR. Considering that a wide number of clinically used drugs kill cancer cells by inducing DNA damage, MG could represent a new and promising chance in antitumor chemotherapy.
Milelli, A., Catanzaro, E., Greco, G., Calcabrini, C., Turrini, E., Maffei, F., et al. (2024). New rhodol-sulforaphane conjugates as innovative isothiocyanate-based cytotoxic agents for cancer cells. EUROPEAN JOURNAL OF MEDICINAL CHEMISTRY, 280, 1-11 [10.1016/j.ejmech.2024.116936].
New rhodol-sulforaphane conjugates as innovative isothiocyanate-based cytotoxic agents for cancer cells
Milelli A.;Catanzaro E.;Greco G.;Calcabrini C.;Turrini E.;Maffei F.;Burattini S.;Guardigni M.;Sestili P.
;Fimognari C.
2024
Abstract
In search of semisynthetic derivatives with increased antitumor activity, we condensed sulforaphane (SFR) with rhodol, a fluorophore platform capable of modifying the intracellular trafficking and pharmacokinetics of the linked molecules. The two tested derivatives, namely MG28 and MG46, showed a far higher, as compared to SFR, cytotoxicity toward cancer cells. Apoptotic cell death was preceded by the extensive generation of DNA lesions, which were repaired relatively slowly and caused formation of micronuclei. Unlike SFR, rhodol-SFR conjugates' DNA lesions resulted from direct interactions with nuclear DNA. Overall, MG28 and MG46 exhibit a remarkable cytotoxic effect, which is the likely consequence of their direct and intense DNA damaging activity, i.e., a novel and peculiar mechanism arising from the conjugation of the parental rhodol and SFR. Considering that a wide number of clinically used drugs kill cancer cells by inducing DNA damage, MG could represent a new and promising chance in antitumor chemotherapy.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
