Multimodal action of antitumor agents on DNA: the ellipticine series.

Most cytotoxic anticancer agents interact directly or indirectly with nuclear DNA, the ultimate target for this class of compounds. For a given type of drug both direct and indirect action at the DNA level usually causes various types of interference or damage. This multimodal mechanism of action is well illustrated by antitumor drugs in the ellipticine series which may bind to DNA through intercalation, may undergo covalent binding, may generate oxidizing species, and may interfere with the catalytic activity of topoisomerase II. The antitumor activity of these compounds may, therefore, result from alternative cytotoxic events. The present review summarizes information obtained with ellipticine compounds on the relation between the nature of the drugs' action on DNA and their cytotoxic and/or antitumor activity. The occurrence of topoisomerase-mediated DNA cleavage appears to be responsible for antitumor activity. The capability of the drugs to interfere with the action of topoisomerase II requires the presence of an oxidizable phenolic group on their structure. This feature (or a related one) is shared by all antitumor drugs acting on this enzyme.