Renaturation effects of cis and trans platinum II and IV compounds on calf thymus deoxyribonucleic acid

Abstract

The effects of cis dichlorodiammine platinum [cis Pt(II)], trans dichlorodiammine platinum (trans Pt(II)], cis tetrachlorodiammine platinum [cis Pt(IV)], trans tetrachlorodiammine platinum [trans Pt(IV)], and ethylenediaminedichloride platinum [Pt(II)en] on the absorption spectra, and thermal hyper- and hypochromicity of calf thymus DNA were investigated. Platinum-induced renaturation was studied as one parameter of interstrand cross-linking. Based on a DNA cross-linking hypothesis, the tumor-inhibitory platinum compounds cis Pt(II), cis Pt(IV) and Pt(II)en would be expected to induce renaturation following thermal denaturation, whereas the ineffective drugs, trans Pt(II) and trans Pt(IV) would not. All five bind to DNA in such a way as to induce renaturation. However, cis Pt(IV) requires at least a 3- to 4-fold longer incubation time than is required by the other compounds to form the coordination bonds necessary for renaturation. Maximum renaturation with all compounds was observed at a molar Pt/base ratio of 0.05 except cis Pt(IV), with which it was 0.25. The rate of the formation of the platinum-coordinated cross-links by fresh cis Pt(II) suggests two reactions or types of reactions occur. The first is rapid and destabilizes the DNA helix, whereas the second is slow and responsible for renaturation following thermal denaturation. These results suggest that cis Pt(IV) may be activated cellularly and that cross-linking is not the primary mechanism of action of the tumor-inhibitory platinum compounds.