Novel mechanisms of DNA topoisomerase II inhibition by pyranonaphthoquinone derivatives-eleutherin, alpha lapachone, and beta lapachone.

Pyranonaphthoquinones have diverse biological activities against Gram-positive bacteria, fungi, and mycoplasms, and, recently, there has also been an increasing interest in their anti-cancer activity. This study includes three derivatives: eleutherin (compound 1), beta lapachone (compound 2), and its structural isomer, alpha lapachone (compound 3). The mechanism of topoisomerase II inhibition by the three derivatives was examined systematically with respect to the steps of the catalytic cycle of the enzyme. Etoposide, the prototypical enzyme poison, was used as a control and in combination with compounds 1-3 to localize their mechanism of action. The study revealed that eleutherin (1) and beta lapachone (2) inhibited topoisomerase II by inducing religation and dissociation of the enzyme from DNA in the presence of ATP. Whereas compound 2 was an "irreversible" inhibitor of topoisomerase II, compound 1 merely slowed the catalytic cycle of the enzyme. alpha Lapachone (3), on the other hand, inhibited initial non-covalent binding of topoisomerase II to DNA and, in addition, induced religation of DNA breaks (even in pre-established ternary complexes) before dissociating the enzyme from DNA. Compound 3 was an "irreversible" inhibitor of topoisomerase II. The diverse and unique mechanisms of topoisomerase II inhibition by pyranonaphthoquinone derivatives reveal novel ways to target the enzyme with potential for anti-cancer drug design.