Serene Kuramarohit scite author profile

Two unsymmetrical dinucleating naphthyridine-based ligands with di(pyridyl) and phosphino side arms were employed in the synthesis of dicopper(I) chloride cores that activate NaBPh 4 to afford bridging phenyl organocopper complexes. In these compounds, the bridging ligand binds symmetrically, as observed in previously described symmetrical dicopper(I) complexes supported by naphthyridine-based ligands with two di(pyridyl) side arms. Unlike the symmetrical systems, however, these complexes undergo quasireversible electrochemical reductions, and chemical reduction yields a diamagnetic product resulting from the coupling of naphthyridine-based radicals of two complexes. The μ-Ph complexes activate the C−H bonds of terminal alkynes and the electron-poor arene C 6 F 5 H. By DFT calculations, the mechanism of terminal alkyne activation involves H-atom transfer at the cationic dicopper center and is sensitive to subtle changes in copper-ligand interactions as well as the position of the anion.

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Anti‐Migratory and Cytotoxic Activities of [Ga(8‐hydroxyquinolinato)₃]: Roles of Endogenous Cu(II) and Drug‐Induced Phenotypic Changes

Kuramarohit

Yaourtis

Nguyen

et al. 2023

Chemistry A European J

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As shown by IncuCyte Zoom imaging proliferation assays, invasive triple‐negative human breast MDA‐MB‐231 cancer cells treated with sub‐toxic doses (5.0‐20 μM, 72 h) of [GaQ3] (Q = 8‐hydroxyquinolinato) caused profound morphological changes and inhibition of cell migration, which were likely due to terminal cell differentiation or similar phenotypical change. This is the first demonstration of potential use of a metal complex in differentiation anti‐cancer therapy. Additionally, a trace amount of Cu(II) (0.20 μM) added to the medium dramatically increased [GaQ3] cytotoxicity (IC50 ~ 2 μM, 72 h) due to its partial dissociation and the action of the HQ ligand as a Cu(II) ionophore, as shown with electrospray mass spectrometry and fluorescence spectroscopy assays in the medium. Hence, cytotoxicity of [GaQ3] is strongly linked to ligand binding of essential metal ions in the medium, e.g., Cu(II). Appropriate delivery mechanisms of such complexes and their ligands could enable a powerful new triple therapeutic approach for cancer chemotherapy, including cytotoxicity against primary tumour, arrest of metastases, and activation of innate and adaptive immune responses.

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