The arylbipyridine platinum (II) complex increases the level of ROS and induces lipid peroxidation in glioblastoma cells.

Abstract

Here we present the biological properties of the arylbipyridine platinum (II) complex (arylbipy-Pt) and describe the potential mechanism of its antitumor action which differs from that of the well-known cisplatin. Leading to the oxidative stress and lipid peroxidation, the arylbipyridine platinum (II) complex showcases the significant cytotoxicity against the glioblastoma cells as shown by the MTT test. Using the 5-ethyl-2-deoxyuridine we study the proliferative activity of glioblastoma cells to affirm that arylbipyridine platinum (II) complex does not impede cell division or DNA replication. Staining by the MitoCLox dye and 2',7'-dichlorodihydrofluorescein diacetate demonstrates that the glioblastoma cells treated with arylbipy-Pt exhibit a strong increase of the lipid peroxidation and the stimulation of the reactive oxygen species formation. The hypothesis that arylbipy-Pt promotes oxidative death of tumor cells is confirmed by control experiments using N-acetyl-L-cysteine as an antioxidant. Further evidence for the oxidative mechanism of action is provided by real-time PCR, which shows high expression levels for genes associated with the heat shock proteins HSP27 and HSP70, which can be used as markers of tumor cell ferroptosis. To elucidate the chemical nature of the arylbipy-Pt complex activity, we perform 195Pt NMR spectroscopy and cyclic voltammetry measurements under biologically relevant conditions. The results obtained clearly indicate the structural transformation of the arylbipy-Pt complex in the DMSO-saline mixture, which is crucial for its further antitumor activity via the oxidative pathway. The found correlation between the molecular structure of arylbipy-Pt and its effect on the tumor cell cycle paves the way for the rational design of Pt complexes possessing the alternative mechanism of antitumor activity as compared to DNA intercalation, providing possible solutions to the major problems such as toxicity and drug resistance.