Cisplatin is the main platinum antitumor drug applied in clinical settings. However, its trans isomer, transplatin, is known to have an ineffective antitumor activity. Despite intensive studies in this field, the structural and biophysical properties of DNA molecules reacting with these two platinum complexes have not been fully elucidated. In the present study, we observed that transplatin made efficient cross-linking of DNA in the vicinity of cisplatin adducts. High-resolution atomic force microscopy studies revealed that the transplatin-induced cross-linkings of nucleotides flanking cisplatin adducts were characterized by kinked-loop structures with rod-like shapes of nanometer scales (∼10-60nm). The results were further confirmed by denaturing gel electrophoresis and single-molecule experiment using magnetic tweezers. In vivo studies revealed that transplatin and cisplatin co-treatment could induce a considerable amount of kinked loops with smaller sizes (∼15nm) in cellular DNA. Furthermore, compared with cisplatin treatment alone, the co-treatment resulted in enhanced cytotoxicity, increased amount of interstrand cross-links, and cell lesions more reluctant to cellular repair system. The results of the present study provide a new clue for understanding the stepwise reactions of DNA with platinum drugs and might serve as a basis for the development of a new antitumor strategy.
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