Antineoplastic therapy with anthracyclines like doxorubicin (DOX) and daunorubicin (DNR) is limited by the possible development of a dose-related cardiomyopathy. Secondary alcohol metabolites like doxorubicinol (DOXol) and daunorubicinol (DNRol), formed by cytoplasmic two-electron reductases, have been implicated as potential mediators of anthracycline-induced cardiomyopathy. In the present study, we characterized the effects of 12 chalcones on the formation of anthracycline secondary alcohol metabolites by rabbit or human heart cytosol and compared them with those of quercetin and other flavonoids. Both chalcones and flavonoids inhibited DOXol or DNRol formation in isolated rabbit heart cytosol. Structure--activity relationships showed that inhibition by chalcones was determined primarily by the position of hydroxyl groups in their phenolic A and B rings. In particular, the presence of a hydroxyl group at C-4' in the A ring was an important determinant of the inhibitory activity of chalcones. Among chalcones, 2',4',2-trihydroxychalcone exhibited the highest inhibition of both DOXol and DRNol formation, but it proved less efficient than quercetin. Different results were obtained with isolated human heart cytosol: in the latter, 2',4',2-trihydroxychalcone and other hydroxychalcones inhibited both DOXol and DNRol formation, whereas quercetin and other flavonoids inhibited DNRol formation but failed to inhibit or slightly stimulated DOXol formation. These results identify chalcones as versatile inhibitors of the cytoplasmic reductases that convert anthracyclines to cardiotoxic secondary alcohol metabolites.

Silvestrini, A., Meucci Calabrese, E., Vitali, A., Giardina, B., Mordente, A., Chalcone inhibition of anthracycline secondary alcohol metabolite formation in rabbit and human heart cytosol., <<CHEMICAL RESEARCH IN TOXICOLOGY>>, 2006; (19): 1518-1524. [doi:10.1021/tx060159a] [http://hdl.handle.net/10807/9377]

Chalcone inhibition of anthracycline secondary alcohol metabolite formation in rabbit and human heart cytosol.

Silvestrini, Andrea;Meucci Calabrese, Elisabetta;Vitali, Alberto;Giardina, Bruno;Mordente, Alvaro
2006

Abstract

Antineoplastic therapy with anthracyclines like doxorubicin (DOX) and daunorubicin (DNR) is limited by the possible development of a dose-related cardiomyopathy. Secondary alcohol metabolites like doxorubicinol (DOXol) and daunorubicinol (DNRol), formed by cytoplasmic two-electron reductases, have been implicated as potential mediators of anthracycline-induced cardiomyopathy. In the present study, we characterized the effects of 12 chalcones on the formation of anthracycline secondary alcohol metabolites by rabbit or human heart cytosol and compared them with those of quercetin and other flavonoids. Both chalcones and flavonoids inhibited DOXol or DNRol formation in isolated rabbit heart cytosol. Structure--activity relationships showed that inhibition by chalcones was determined primarily by the position of hydroxyl groups in their phenolic A and B rings. In particular, the presence of a hydroxyl group at C-4' in the A ring was an important determinant of the inhibitory activity of chalcones. Among chalcones, 2',4',2-trihydroxychalcone exhibited the highest inhibition of both DOXol and DRNol formation, but it proved less efficient than quercetin. Different results were obtained with isolated human heart cytosol: in the latter, 2',4',2-trihydroxychalcone and other hydroxychalcones inhibited both DOXol and DNRol formation, whereas quercetin and other flavonoids inhibited DNRol formation but failed to inhibit or slightly stimulated DOXol formation. These results identify chalcones as versatile inhibitors of the cytoplasmic reductases that convert anthracyclines to cardiotoxic secondary alcohol metabolites.
2006
Inglese
Silvestrini, A., Meucci Calabrese, E., Vitali, A., Giardina, B., Mordente, A., Chalcone inhibition of anthracycline secondary alcohol metabolite formation in rabbit and human heart cytosol., <<CHEMICAL RESEARCH IN TOXICOLOGY>>, 2006; (19): 1518-1524. [doi:10.1021/tx060159a] [http://hdl.handle.net/10807/9377]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10807/9377
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