Phosphorescent platinum (II), iridium (III) and ruthenium (II) complexes with monodentate imidazole ligands respond to the reductive microenvironment of living cells

Abstract

Phosphrescent complexes of monodentate imidazole have been reported before, but their dissociation induced by cellular endogenous stimulus have never been explored. In our work, the dissociation of monodentate imidazole ligands from phosphorescent cyclometalated platinum (II) iridium (III) and polypyridyl ruthenium (II) complexes in GSH abundant reductive solution are firstly investigated. The release rate of ligand follows the order: Pt (II) > Ir (III) > > Ru (II) in vitro, while their corresponding bidentate complexes are barely affected. Moreover, the cellular dissociation of ligand can be monitored in time by Confocal imaging and flow cytometry. In brief, cellular penetration and nucleolus targeting ability of GSH active complexes are mainly interfered by the reductive microenvironment. Our work may help to reveal the dynamic process of coordination and release of monodentate ligands of complexes in cellular microenvironment.