Interaction of trans-diamminedichloroplatinum(II) with DNA: formation of monofunctional adducts and their reaction with glutathione

Abstract

Bifunctional reactions with DNA are responsible for the toxic action of the cancer chemotherapeutic drug cis-diamminedichloroplatinum(II) (cis-DDP). Thiourea has previously been used to trap transient monofunctional adducts in DNA before they rearrange to the toxic lesions. In these studies, thiourea was used to quantify the monofunctional adducts produced by the ineffective isomer trans-DDP. Rather than trapping monofunctional adducts, thiourea labilized them from DNA. At short time periods, 85% of trans-DDP bound to double-stranded DNA as monofunctional adducts of deoxyguanosine. Rearrangement to bifunctional adducts in double-stranded DNA was 50% complete in 24 h but was much more rapid in single-stranded DNA with 100% complete rearrangement in 24 h. The ineffectiveness of trans-DDP therefore results from a high proportion of monofunctional adducts in DNA that rearrange very slowly to toxic bifunctional adducts. The persistent monofunctional adducts react rapidly with glutathione, which would further reduce their potential toxicity by preventing them from rearranging to more toxic bifunctional adducts.