Several studies have indicated that α-mangostin exerts anti-metastasis and anti-subsistence effects on several types of cancer cells. Especially, the anti-metastatic effect of α-mangostin on cancer cells is a prospective function in cancer treatment. However, the metastasis process is complicated, and includes migration, invasion, intravasation, and extravasation; thus, the main target of anti-metastatic effect of α-mangostin is not known. In this study, we investigated the effects of α-mangostin on the invasion, subsistence, and migration of lung cancer cells under co-culture conditions with normal cells and regular mono-culture conditions. We found that α-mangostin killed the lung cancer and normal cells in a dose-dependent manner. Furthermore, the alteration in the surface mechanical properties of cells was examined by using atomic force microscopy. Although the α-mangostin concentrations of 5 and 10 µM did not affect the short-term cell viability, they considerably decreased the Young’s modulus of lung cancer cells implying a decline in cell surface actin cytoskeletal properties. Additionally, these concentrations of α-mangostin inhibited the migration of lung cancer cells. In co-culture conditions (cancer cells with normal cells), the invasive activities of cancer cells on normal cells were discernibly observed, and was inhibited after treatment with 5 and 10 µM of α-mangostin. Taken together, α-mangostin suppressed the subsistence of lung cancer cells and displayed anti-metastatic activities by inhibiting the migration and invasion, and reducing the actin cytoskeleton of cancer cells. Our findings suggest that α-mangostin could be a potential therapeutic agent for cancer treatment.
The pericarp of Garcinia mangostana L. is a rich source of α-mangostin, which exhibits a wide range of pharmacological and biological activities. However, clinical use of this compound is limited due to its low water solubility. Therefore, its formulation with various delivery systems has been developed. In the present study, α-mangostin was isolated from G. mangostana pericarp extract and loaded onto newly synthesized liposomes. The system was evaluated for in vitro drug release at pH 5.5 and 7.4 during 96 hours of experiment, followed by cytotoxicity measurement against Hep-G2 cells. α-Mangostin was obtained in a high yield (1.86%) and its chemical structure was confirmed using nuclear magnetic resonance and Fourier-transform infrared spectroscopy. The compound was then loaded onto liposomes with relatively high efficiency (55.3% ± 2.3%). The compound was released in a sustained manner and exhibited significant cytotoxic activity against Hep-G2 cells. The present study provides important insights into liposome applications for α-mangostin delivery, thus improving the compound’s limitations and enabling further in vivo studies on its safety and efficacy.
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