Recognition and processing by cellular proteins of DNA modified by platinum complexes have been suggested to be relevant to the mechanism of their antitumor activity. Platinum complexes form on DNA various mono- and bifunctional adducts. It has already been described by other authors that intrastrand cross-links formed on DNA by antitumor cis-diamminedichloroplatinum(II) (cisplatin) between neighboring purine residues are recognized by several DNA-binding proteins. In contrast, these proteins do not recognize the intrastrand cross-links formed on DNA by cisplatin or its clinically ineffective trans isomer (transplatin) between nonadjacent base residues. An eventuality heretofore not addressed is that DNA interstrand cross-links (ICLs) of platinum compounds may be recognized by and bound to DNA-binding proteins. DNA probes of 110 base pairs (bp) were constructed containing five equally spaced ICLs of cisplatin or transplatin. These ICLs were formed at specific sites at which these adducts are preferentially formed in natural DNA. Gel electrophoresis mobility shift and competition assays with these probes were used to investigate the specific recognition and binding of the calf thymus HMG1 protein to the DNA ICLs of both platinum isomers. The ICL of antitumor cisplatin was recognized by and bound to the HMG1 protein with a similar affinity as the 1,2-intrastrand d(GpG) cross-link of this drug. The protein binding to the ICL is selective for the DNA modification by cisplatin, but not by chemotherapeutically inactive transplatin.(ABSTRACT TRUNCATED AT 250 WORDS)

Institute of Biophysics Academy of Sciences of the Czech Republic Brno

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