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Showing 2 results for Liver Cancer
Volume 8, Issue 2 (6-2022)
Abstract
Backgrounds: Green synthesis of nanoparticles (NPs) is a simple, fast, and eco-friendly method which could be performed by various microorganisms or plant extracts. Silver NPs are well-known as antimicrobial and anti-fungal materials. They play an essential role in the control of tumors via their cytotoxic effects. Therefore, they have attracted significant attention for developing an effective treatment solution for cancer cells. This study aimed to investigate the potential of Penicillium chrysogenum for the synthesis of silver NPs and to evaluate their toxicity on liver cancer cell line (HepG2).
Materials & Methods: After synthesis of NPs usingP. chrysogenum, characterization of the synthesized NPs was performed by UV–Vis spectroscopy, X-ray diffraction (XRD), and transmission electron microscopy (TEM). Fourier transform infrared spectroscopy (FTIR) was carried out to detect biomolecules that may be responsible for the synthesis and stabilization of NPs. The cytotoxic activity of the synthesized AgclNPs on HepG2 cell line was evaluated using MTT assay.
Findings: UV–Vis spectroscopy and XRD analysis confirmed the synthesis of AgclNPs using P. chrysogenum. TEM analysis revealed the spherical shape of AgclNPs with an average crystalline size of 15 to 45 nm. FTIR spectroscopy indicated the possible functional groups that could be responsible for the reduction of metal ions and the capping process. These nanoparticles showed a dose-dependent anticancer activity against HepG2 cells.
Conclusion: The results suggest that biosynthesized silver chloride nanoparticles could offer potential applications in cancer therapy.
Parvaneh Peyvand, Zahra Vaezi, Hossein Naderi-Manesh,
Volume 16, Issue 1 (12-2024)
Abstract
Hepatocellular carcinoma, predominant form of liver cancer, is the main cause of death in patients with liver cirrhosis. Podophyllotoxin, a natural anticancer compound, has ideal anti-tumor properties. However, its use is limited due to poor solubility and bioavailability. Finding a suitable drug delivery system have great importance in improving the bioavailability of podophyllotoxin. In this study, mPEG-PCL nanoparticles have been used for delivery of podophyllotoxin to liver cancer cells. mPEG-PCL copolymers were synthesized and characterized by DLS, FTIR and NMR analyses methods. The critical micellization concentration was 0.055 µg/ml. The z-average and surface charge of micelle was 186 ± 12 nm and -5.13 mV, respectively. podophyllotoxin was loaded in micelles in different w/w ratios of drug: copolymer. The size of the nanodrug was 214 ± 20 nm and the weight ratio of 1:1 with encapsulation efficiency of 77.36 ± 1.23 % was selected as the optimal ratio. The drug release results showed a significant difference between the rapid release of free podophyllotoxin and the more stable release of the loaded drug. At 37°C, drug release was higher, which was attributed to the destruction of polymersome structure at this temperature. According to the cytotoxicity study, the IC50 value for nanodrug (8.64 μg/ml) was lower than the IC50 value for the free drug (12.79 μg/ml), which showed the effect of improved cytotoxicity of nanodrug compared to the free drug. The results proved the polymersome can be potential carriers for delivery, controllable release and improve the toxicity effect of podophyllotoxin in cancer chemotherapy.
