Spectroscopic investigation and in vitro cytotoxic activity toward HepG2 cells of a copper compound complexed with human serum albumin

Abstract The human serum albumin (HSA) interaction of a mixed‐ligand copper compound (1) with an imidazole and taurine Schiff base derived from salicylaldehyde and taurine was investigated using fluorescence spectroscopy, UV–vis spectroscopy, time‐resolved fluorescence spectroscopy, circular dichroism (CD) spectroscopy, Fourier transform infrared (FT‐IR) spectroscopy and a molecular docking technique. The results of fluorescence and time‐resolved fluorescence spectroscopy indicated that 1 can effectively quench the HSA fluorescence by a static mechanism. Binding constants ( K ) and the number of binding sites ( n  ≈ 1) were calculated using modified Stern–Volmer equations. The thermodynamic parameters were calculated. UV–vis, CD and FT‐IR spectroscopy measurements confirm the alterations in the HSA secondary structure induced by 1. The site marker competitive experiment confirms that 1 is located in subdomain IB of HSA. The combination of molecular docking results and fluorescence experimental results reveal that hydrophobic interaction and hydrogen bonds are the predominant intermolecular forces stabilizing the 1–HSA complex. The 1–HSA complex increases approximately three times its cytotoxicity in cancer cells but has no effect on normal cells in vitro. Compared with unbound 1, the 1–HSA complex promotes HepG2 cells apoptosis and also has a stronger capacity for cell cycle arrest at the S phase of HepG2 cells.