Cisplatin adducts in DNA: distortion and recognition

Abstract cis-Diamminedichloroplatinum (II) (cisplatin) and derivatives are very successful anticancer chemotherapeutic agents. They crosslink cellular DNA, forming bifunctional adducts with the N7 of guanine bases. In this review, recent structures of cisplatin adducts are summarised, and the significance for the recognition of DNA structure by proteins is discussed. Two new structures of intrastrand GpG adducts have been presented, showing a significant kinking of the helix axis and a novel hybrid A-B helical geometry. The relevance of this structure to the recognition of HMG-box and related proteins is discussed. A new structure of a cross-strand cisplatin adduct reveals a major disruption of the local DNA structure. The basepairs containing the modified guanine bases are broken, with extrusion of the cytosine bases into the solvent. The backbone reverses direction locally, with the result that the platinum adduct is located in what is the minor groove of the DNA overall. The extrusion of single bases out of the helix is strongly reminiscent of the effect of certain methylases on their DNA targets.