Mechanisms underlying the cytotoxic activity of syn/anti-isomers of dinuclear Au(I) NHC complexes

Abstract The syn- and anti-isomers of dinuclear Au(I) complexes of the type Au2(RLOH)(PF6)2 (R = isopropyl or mesityl) bearing 2-hydroxyethane-1,1-diyl-bridged bisimidazolylidene ligands were separated by reversed phase high performance liquid chromatography (HPLC) and characterized by NMR spectroscopy, elemental analysis, ESI mass spectrometry as well as single crystal X-ray diffraction analysis. Evaluation of the antiproliferative activity of the isolated isomers has shown very small difference in their cytotoxic behavior in various cancer cell lines. Additional counter-anion exchange (hexafluorophosphate to chloride) allows to increase the water solubility of synAu2(MesLOH)(PF6)2 and leads to higher antiproliferative activity when compared to the hexafluorophosphate-complex. Both isomers were treated with l -cysteine as nucleophilic thiol source and only the anti-isomer shows dissociation of one bisimidazolylidene ligand after 24 h. In the case of the syn-isomer, density functional theory calculations indicate a lower reactivity due to the higher steric hindrance of the N-substituents and additional hydrogen bond interaction, which prevents a nucleophilic attack. When the N-substituent is replaced by the bulkier mesityl group, both conformations remain unreactive and result to be the most cytotoxic complexes in the above-mentioned cancer cell lines. Interestingly, synAu2(MesLOH)(PF6)2 exhibits a high selectivity in the MCF-7 cell line with a selectivity index (SI) of 19, which is superior to auranofin (SI