Spectroscopic evidence for anthracenedione antineoplastic agent self-association and complex formation with flavin nucleotides

Abstract

Dihydroxyanthraquinone (DHAQ) and ametantrone (anthraquinone) are two new anthracenedione antineoplastic agents which were found by proton NMR spectroscopy to self-associate in aqueous media. Self-association was consistent with a bimolecular model, with average association constant values of 3400 and 2900 m −1 determined for DHAQ and ametantrone, respectively. Both anthracenediones interacted with the flavin nucleotides FMN and FAD to produce concentration-dependent upfield shifts of the flavin isoalloxazine ring proton signals, as observed by proton NMR spectroscopy. Average association constant values obtained for FMN-DHAQ, FAD-DHAQ, FMN-metantrone, and FAD-ametantrone complexation were 5100, 2600, 4300, and 1600 m −1, respectively. Optical difference spectroscopy confirmed FMN-DHAQ complexation, which resulted in a hyperchromic, bathochromic shift of the DHAQ spectrum following addition of FMN. These results were consistent with the formation of a ππ bimolecular ring-stacking complex. Information obtained on anthracenedione self-association and complexation with flavins may be of consequence in the interpretation of anthracenedione-DNA binding data and flavoprotein-mediated anthracenedione metabolic activation.