Chromomycin A3 (Chro) has been evidenced to exhibit much higher binding affinity toward Fe(II) by forming a highly stable 2:1 drug/metal complex, compared to its structural analogue, mithramycin (Mith). Different properties of the [(Chro)2-Fe(II)] complex acting on DNA, such as sequence specificity, DNA cleavage, and topoisomerase I (TopI) inhibition were studied. Kinetic analyses of surface plasmon resonance showed that the affinity of the [(Chro)2-Fe(II)] complex upon binding to hairpin DNA duplexes containing various tetranucleotide sequences follows the order: GGCC > CGCG > CCGG approximately GCGC > AGCT > ACGT > TGCA > TCGA. According to circular dichroism (CD) studies, most hairpin DNA duplexes appeared to retain their B-type conformations in the presence of the [(Chro)2-Fe(II)] complex, except the duplex containing the GGCC sequence, which exhibited the features of both A- and B-type DNA. In DNA-cleavage assays, the [(Chro) 2-Fe(II)] complex was shown to cause single-stranded cleavage of plasmid DNA because of a Fenton-type reaction. DNA cleavage activity of the [(Chro) 2-Fe(II)] complex was increased at low pH. Moreover, the complex was capable of inhibiting TopI activity. The [(Chro)2-Fe(II)] complex exhibited higher cytotoxicity than the [(Mith) 2-Fe(II)] complex in several cancer cell lines, most likely owing to its more stable dimeric structure and higher DNA-binding affinity. Our results provide significant evidence that the [(Chro)2-Fe(II)] complex could be promising in terms of its biological applications in the future.
Few studies have examined the effects of polyamines on the action of DNA-binding anticancer drugs. Here, a Co(II)-mediated dimeric mithramycin (Mith) complex, (Mith)(2)-Co(II), was shown to be resistant to polyamine competition toward the divalent metal ion when compared to the Fe(II)-mediated drug complexes. Surface plasmon resonance experiments demonstrated that polyamines interfered with the binding capacity and association rates of (Mith)(2)-Co(II) binding to DNA duplexes, while the dissociation rates were not affected. Although (Mith)(2)-Co(II) exhibited the highest oxidative activity under physiological conditions (pH 7.3 and 37 degrees C), polyamines (spermine in particular) inhibited the DNA cleavage activity of the (Mith)(2)-Co(II) in a concentration-dependent manner. Depletion of intracellular polyamines by methylglyoxal bis(guanylhydrazone) (MGBG) enhanced the sensitivity of A549 lung cancer cells to (Mith)(2)-Co(II), most likely due to the decreased intracellular effect of polyamines on the action of (Mith)(2)-Co(II). Our study suggests a novel method for enhancing the anticancer activity of DNA-binding metalloantibiotics through polyamine depletion.
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