ABSTRACT
Sodium borohydride reduced diaziquone (AZQ) can cause cross-links between DNA molecules, between DNA and proteins and cause single- and double-strand DNA breaks. In order to understand these effects better, we investigated the reduction of diaziquone by borohydride, and looked at reaction products. We found that a major product was formed during the oxidation of the colorless 2-electron reduced AZQ, and that this product was a monoaziridinyl quinone. We interpret this result to mean that both the leaving aziridine as well as the remaining one can alkylate. This mode of alkylation does not explain cross-links which may occur by a different mechanism requiring simultaneous opening of the aziridine rings. Most of the antitumor activity of borohydride reduced AZQ is probably exerted during the oxidation of the 2-electron reduced AZQ (AZQH2).
