A novel class of glutathione peroxidase 1 (GPx1) inhibitors, namely tri‐ and tetracyclic pentathiepins, has been identified that is approximately 15 times more potent than the most active known GPx1 inhibitor, mercaptosuccinic acid. Enzyme kinetic studies with bovine erythrocyte GPx1 indicate that pentathiepins reversibly inhibit oxidation of the substrate glutathione (GSH). Moreover, no inhibition of superoxide dismutase, catalase, thioredoxin reductase or glutathione reductase was observed at concentrations that effectively inhibit GPx1. As well as potent enzyme inhibitory activity, the pentathiepins show strong anticancer activity in various human cancer cell lines, with IC
50
values in a low‐micromolar range. A representative tetracyclic pentathiepin causes the formation of reactive oxygen species in these cells, the fragmentation of nuclear DNA and induces apoptosis via the intrinsic pathway. Moreover, this pentathiepin leads to a rapid and strong loss of mitochondrial membrane potential in treated cancer cells. On the other hand, evidence for the induction of ferroptosis as a form of cell death was negative. These new findings show that pentathiepins possess interesting biological activities beyond those originally ascribed to these compounds.
Pentathiepins are polysulfur-containing compounds that exert antiproliferative and cytotoxic activity in cancer cells, induce oxidative stress and apoptosis, and inhibit glutathione peroxidase (GPx1). This renders them promising candidates for anticancer drug development. However, the biological effects and how they intertwine have not yet been systematically assessed in diverse cancer cell lines. In this study, six novel pentathiepins were synthesized to suit particular requirements such as fluorescent properties or improved water solubility. Structural elucidation by X-ray crystallography was successful for three derivatives. All six underwent extensive biological evaluation in 14 human cancer cell lines. These studies included investigating the inhibition of GPx1 and cell proliferation, cytotoxicity, and the induction of ROS and DNA strand breaks. Furthermore, selected hallmarks of apoptosis and the impact on cell cycle progression were studied. All six pentathiepins exerted high cytotoxic and antiproliferative activity, while five also strongly inhibited GPx1. There is a clear connection between the potential to provoke oxidative stress and damage to DNA in the form of single- and double-strand breaks. Additionally, these studies support apoptosis but not ferroptosis as the mechanism of cell death in some of the cell lines. As the various pentathiepins give rise to different biological responses, modulation of the biological effects depends on the distinct chemical structures fused to the sulfur ring. This may allow for an optimization of the anticancer activity of pentathiepins in the future.
The biological properties of pentathiepins have been attracting increased attention in recent years. Experiments have shown a wide range of effects of pentathiepins in vitro, such as induction of apoptosis and alteration of mitochondrial membrane potential in cancer cells, and inhibition of antioxidant enzymes, for example, glutathione peroxidase 1 (GPx1). Biological evaluation is sometimes limited due to low aqueous solubility, high lipophilicity, and poor stability toward thiols, for example, glutathione (GSH). To assess whether liposomes are suitable as drug carriers to overcome these drawbacks, a model pentathiepin was formulated in a liposomal preparation. The success of loading liposomes with pentathiepins was evaluated by using ultraviolet‐visible light (UV‐Vis) spectroscopy, dynamic light scattering (DLS), and high‐performance liquid chromatography (HPLC). Through inclusion into 100‐nm‐sized 1,2‐dioleoyl‐sn‐glycero‐3‐phosphocholine liposomes, the aqueous solubility of a representative pentathiepin could be increased by several orders of magnitude to ca. 400 µM. The stability of the pentathiepin in the presence of GSH was increased fourfold as determined by UV‐Vis spectroscopy. In antiproliferation experiments with two human cancer cell lines, no decrease in potency in the liposomal loaded pentathiepin compared to the free pentathiepin was found. In conclusion, liposomes are a suitable carrier for pentathiepins and improve both solubility and stability in the presence of thiols without compromising anticancer activity.
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