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Ruthenium(II) arene anticancer complexes with redox-active diamine ligands.

Inorganic chemistry (2009-09-29)
Tijana Bugarcic, Abraha Habtemariam, Robert J Deeth, Francesca P A Fabbiani, Simon Parsons, Peter J Sadler
RÉSUMÉ

The synthesis and characterization of ruthenium(II) arene complexes of the general formula [(eta(6)-arene)Ru(XY)Z](+), where arene = p-cymene (p-cym), hexamethylbenzene (hmb), or biphenyl (bip), XY = o-phenylenediamine (o-pda), o-benzoquinonediimine (o-bqdi), or 4,5-dimethyl-o-phenylenediamine (dmpda), and Z = Cl, Br, or I, are reported (complexes 1-6). In addition, the X-ray crystal structures of [(eta(6)-p-cym)Ru(o-pda)Cl]PF(6) (1) and [(eta(6)-hmb)Ru(o-bqdi)Cl]PF(6) (3PF(6)) are described. The Ru-N distances in 3PF(6) are significantly shorter [2.033(4) and 2.025(4) A] compared to those in 1 [2.141(2) and 2.156(2) A]. All of the imine complexes (3-5) exhibit a characteristic broad (1)H NMR NH resonance at ca. delta 14-15. Complex 1 undergoes concomitant ligand-based oxidation and hydrolysis (38% after 24 h) in water. The oxidation also occurs in methanol. The iodido complex [(eta(6)-p-cym)Ru(o-bqdi)I]I (4) did not undergo hydrolysis, whereas the chlorido complex 3 showed relatively fast hydrolysis (t(1/2) = 7.5 min). Density functional theory calculations showed that the total bonding energy of 9-EtG in [(eta(6)-p-cym)Ru(o-pda)(9-EtG-N7)](2+) (1EtG) is 23.8 kJ/mol lower than that in [(eta(6)-p-cym)Ru(o-bqdi)(9-EtG-N7)](2+) (3EtG). The greater bonding energy is related to the contribution from strong hydrogen bonding between the NH proton of the chelating ligand and O6 of 9-EtG (1.69 A). A loss of cytotoxic activity was observed upon oxidation of the amine ligand to an imine (e.g., IC(50) = 11 microM for 1 and IC(50) > 100 microM for 3, against A2780 ovarian cancer cells). The relationship between the cytotoxic activity and the solution and solid state structures of the imine and amine complexes is discussed.

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Sigma-Aldrich
4,5-Dimethyl-1,2-phenylenediamine, 98%