Selenium Nanoparticles Stabilized by ß-Glucan Nanotubes from Black Fungus and Their Effects on the Proliferation, Apoptosis, and Cell Cycle of HepG2 Cells.

Selenium nanoparticles (Se NPs) have significant anticancer effects, but their poor water solubility and dispersibility limit their further applications in biomedical fields. Biomacromolecules have often been used as dispersants or stabilizers in synthesized Se NPs because they can enhance the dispersibility of Se NPs and reduce their side effects. Our previous studies reported a triple-helix ß-glucan (BFP) from the fruiting bodies of black fungus, which showed a good self-assembly ability in constructing hollow nanotubes for loading metal nanoparticles. Therefore, in the present work, BFP nanotubes were designed as carriers to entrap large amounts of Se NPs in order to enhance their stability and anticancer effects. The results showed that Se NPs were successfully synthesized and loaded inside the BFP nanotubes, and the composite (BFP-Se) exhibited high stability and dispersibility due to the covalent Se-O bonds between the Se NPs and the hydroxyl groups on the BFP nanotubes. Moreover, BFP-Se showed significant effects on the proliferation, apoptosis, and cell cycle of HepG2 cells compared to those exhibited by Se NPs. The mechanism was associated with BFP, which acted as a dispersant or stabilizer, resulting in the enhanced cellular uptake of the Se NPs. BFP also activated the death receptor-mediated and mitochondria-mediated apoptotic pathways in HepG2 cells. These results suggest that BFP-Se has potential applications in biomedical fields, especially for the treatment of human liver cancers.

Synthesis, Biological Evaluation and Action Mechanism Study of New Mitochondria-Targeted Curcumin Derivative as Potential Antitumor Drugs.

Mitochondria have emerged as important targets in cancer therapy due to their key role in regulating energy supply, maintaining redox homeostasis, and intrinsic apoptosis. Curcumin (CUR) has shown promise in inhibiting the proliferation and metastasis of cancer cells by inducing apoptosis and arresting cell cycle. However, the clinical application of CUR has been limited by its low stability and poor tumor selectivity. To address these issues, the novel mitochondria-targeted curcumin derivatives were synthesized through the unilateral coupling (CUR-T) or bilateral coupling (CUR-2T) of curcumin's phenolic hydroxy groups with triphenyl phosphorus via ester bond. The aim was to achieve better stability, higher tumor selectivity, and stronger curative efficacy. The results of stability and biological experiments indicated that both stability and cytotoxicity were arranged in descending order of CUR-2T>CUR-T>CUR. In ovarian cancer cells (A2780 cells), CUR-2T showed well-defined preferential selectivity towards cancer cells and exhibited efficient anticancer efficacy due to its superior mitochondria accumulation ability. Subsequently, the mitochondrial redox balance was disrupted, accompanied by increased ROS levels, decreased ATP levels, dissipated MMP, and increased G0 /G1 phase arrest, leading to a higher apoptotic rate. In summary, the results of this study suggest that CUR-2T holds substantial promise for further development as a potential agent for the treatment of ovarian cancer.

Uniform and disperse selenium nanoparticles stabilized by inulin fructans from Codonopsis pilosula and their anti-hepatoma activities.

The present work reported the extraction, purification and characterization of an inulin fructan from Codonopsis pilosula (CPW1) and its application in stabilization of selenium nanoparticles (SeNPs). The morphology, stability, and stabilization mechanism of CPW1 stabilized SeNPs (CPW1-Se) were explored, and the results showed that the SeNPs were amorphous state, with size of 54-79 nm, and kept stable within 15 days due to the interaction between SeNPs and the hydroxyl groups on the surface of CPW1. Moreover, the effects on proliferation and apoptosis of CPW1-Se to both normal cells (293T) and liver cancer cells (Huh-7 and HepG2) were evaluated systematically by using the CCK8 assay, plate clone formation assay, flow cytometry and western blot. The results indicated that CPW1-Se possessed selective anti-hepatoma activities without side effects on normal cells, which exhibited strong potential application in liver cancer treatments.