Concerted bis-alkylating reactivity of clerocidin towards unpaired cytosine residues in DNA

doi:10.1093/nar/gkh898

Nucleic Acids Research 2004 32(18):5658-5667; doi:10.1093/nar/gkh898

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Published online 19 October 2004

Concerted bis-alkylating reactivity of clerocidin towards unpaired cytosine residues in DNA

Sara N. Richter, Ileana Menegazzo¹, Daniele Fabris² and Manlio Palumbo^*

Department of Pharmaceutical Sciences and ¹ Department of Chemical Sciences, University of Padova, 35131 Padova, Italy and ² Department of Chemistry and Biochemistry, University of Maryland, Baltimore County, Baltimore, MD 21250, USA

^* To whom correspondence should be addressed. Tel: +39049 827 5711/7; Fax: +39049 827 5366; Email: manlio.palumbo{at}unipd.it

Received July 8, 2004; Revised and Accepted September 30, 2004

Clerocidin (CL) is a topoisomerase II poison, which cleavesDNA irreversibly at guanines (G) and reversibly at cytosines(C). Furthermore, the drug can induce enzyme-independent strandbreaks at the G and C level. It has been previously shown thatG-damage is induced by alkylation of the guanine N7, followedby spontaneous depurination and nucleic acid cleavage, whereasscission at C is obtained only after treatment with hot alkali,and no information is available to explain the nature of thisdamage. We present here a systematic study on the reactivityof CL towards C both in the DNA environment and in solution.Selected synthetic derivatives were employed to evaluate therole of each chemical group of the drug. The structure of CL–dCadduct was then characterized by tandem mass spectrometry andNMR: the adduct is a stable condensed ring system resultingfrom a concerted electrophilic attack of the adjacent carbonyland epoxide groups of CL towards the exposed NH₂ and N3, respectively.This reaction mechanism, shown here for the first time, is characterizedby faster kinetic rates than alkylation at G, due to the factthat the rate-determining step, alkylation at the epoxide, isan intramolecular process, provided a Schiff base linking CLand C can rapidly form, whereas the corresponding reaction ofG N7 is intermolecular. These results provide helpful hintsto explain the reversible/irreversible nature of topoisomeraseII mediated DNA damage produced by CL at C/G steps.

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