The crystal structure of the complex between a disaccharide anthracycline and the DNA hexamer d(CGATCG) reveals two different binding sites involving two DNA duplexes.

The crystal structure of the complex formed between the anthracycline antibiotic 3'-deamino-3'- hydroxy-4'-(O-L-daunosaminyl)-4-demethoxydoxo rubicin (MEN 10755), an active disaccharide analogue of doxorubicin, and the DNA hexamer d(CGATCG) has been solved to a resolution of 2.1 A. MEN 10755 exhibits a broad spectrum of antitumor activities, comparable with that of the parent compound, but there are differences in the mechanism of action as it is active in doxorubicin-resistant tumors and is more effective in stimulating topoisomerase DNA cleavage. The structure is similar to previously crystallised anthracycline- DNA complexes. However, two different binding sites arise from drug intercalation so that the two halves of the self-complementary duplex are no longer equivalent. In one site both sugar rings lie in the minor groove. In the other site the second sugar protrudes out from the DNA helix and is linked, through hydrogen bonds, to guanine of a symmetry-related DNA molecule. This is the first structure of an anthracycline-DNA complex where an interaction of the drug with a second DNA helix is observed. We discuss the present findings with respect to the relevance of the amino group for DNA binding and to the potential role played by the second sugar in the interactions with topoisomerases or other cellular targets.

The disaccharide anthracycline MEN 10755 binds human serum albumin to a non-classical drug binding site.

The interaction of the novel disaccharide anthracycline MEN 10755 with human serum albumin (HSA) was investigated by visible absorption and fluorescence spectroscopies and by ultrafiltration. Notably, MEN 10755 binds serum albumin far stronger than doxorubicin. Albumin binding results into a drastic quenching of the intrinsic fluorescence of MEN 10755; a binding constant of 1.1 x 10(5) was determined from fluorescence data. To localize the HSA binding site of MEN 10755 competition experiments were carried out with ligands that are selective for the different drug binding sites of the protein. No relevant competition effects were seen in the case of warfarin, diazepam and hemin, known ligands of sites I, II and III, respectively. Modest effects were observed following addition of palmitic acid that targets the several fatty acid binding sites of the protein. In contrast, extensive displacement of the bound anthracycline was achieved upon addition of ethacrinic acid. On the basis of these results, it is proposed that MEN 10755 binds serum albumin tightly to a non-canonical surface binding site for which it competes specifically with ethacrinic acid.