Chemical and biological studies of the dichloro(2-phenylpyridine) gold(iii) complex and its derivatives†
Abstract
Four new derivatives of the type [Au(ppy)X2] (ppy = 2-phenylpyridine) together with [Au(ppy)Cl2] (1) have been synthesized and characterized [X = ac = CH3COO− (2), bz = C6H5COO− (3); mal = CH2(COO−)2 (4), cbdca = C4H6(COO−)2 (5)]. The crystal structures of 2 and 3 are similar in which two carboxylate groups are bound to gold through oxygen, but the two Au–O distances are inequivalent. The crystal structure of 5 shows that gold is bound to σ-C,N-phenylpyridine (ppy) and O,O-cbdca, forming a five-membered and a six-membered chelate ring, respectively. In all four structures the Au(III) center exhibits a square planar coordination geometry and the trans influence of the σ-bonded phenyl group is apparent. The σ-bonded phenyl group contributes to stabilizing these complexes in reducing, biological media. The reaction between 5 and chloride has been investigated by 1H NMR spectroscopy and reveals slow replacement of cbdca by chlorides through an intermediate [Au(ppy)(O-cbdca)Cl]. All five complexes have been tested for cytotoxic properties in vitro against MOLT-4 (human leukemia) and C2C12 (mouse tumour) cell lines. The results show that these complexes have similar cytotoxicity profile to cisplatin against MOLT-4 but are inactive on C2C12, except for complex 5.