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Redox-active and DNA-binding coordination complexes of clotrimazole.

Dalton transactions (Cambridge, England : 2003) (2015-01-07)
Soledad Betanzos-Lara, Nikola P Chmel, Matthew T Zimmerman, Lidia R Barrón-Sosa, Claudio Garino, Luca Salassa, Alison Rodger, Julia L Brumaghim, Isabel Gracia-Mora, Norah Barba-Behrens
RESUMEN

DNA interactions of anticancer mononuclear Cu(2+), Co(2+), Zn(2+), and Ni(2+) complexes with the biologically active ligand clotrimazole (clotri) are reported. To fully characterize DNA binding modes for these complexes of the formulae [M(clotri)2Cl2]·nH2O (1-4), [M(clotri)2Br2]·nH2O (5,6), [M(clotri)3NO3]NO3·nH2O (9), and [M(clotri)3(NO3)2] (10), circular dichroism (CD) and linear dichroism (LD) spectroscopy, UV melting experiments, atomic force microscopy (AFM) and ethidium bromide (EtBr) displacement methods were used. Results indicate mixed electrostatic interactions, possibly through groove binding, that result in accretion and coiling of DNA. Electrochemical studies indicate that the Cu(2+) complex 9 readily reduces to the reactive-oxygen-species-generating Cu(+), which oxidatively damages DNA. There is a subtle correlation between log P values, calculated electrostatic potentials, and cytotoxicity of the complexes. The extent of cell-nucleus DNA-metal adduct formation in the HeLa cervix-uterine carcinoma cell line does not necessarily correlate with cytotoxicity, indicating that the nature of DNA lesions may be crucial to activity.

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GenElute Mammalian Genomic DNA Miniprep Kits, sufficient for 10 purifications