Enhanced osteogenic differentiation and mineralization of human dental pulp stem cells using Prunus amygdalus amara (bitter almond) incorporated nanofibrous scaffold.

Polyphenol extracts derived from plants are expected to have enhanced osteoblast proliferation and differentiation ability, which has gained much attention in tissue engineering applications. Herein, for the first time, we investigate the effects of Prunus amygdalus amara (bitter almond) (BA) extract loaded on poly (ε-caprolactone) (PCL)/gelatin (Gt) nanofibrous scaffolds on the osteoblast differentiation of human dental pulp stem cells (DPSCs). In this regard, BA (0, 5, 10, and 15% wt)-loaded PCL/Gt nanofibrous scaffolds were prepared by electrospinning with fiber diameters in the range of around 237-276 nm. Morphology, composition, porosity, hydrophilicity, and mechanical properties of the scaffolds were examined by FESEM, ATR-FTIR spectroscopy, BET, contact angle, and tensile tests, respectively. It was found that the addition of BA improved the tensile strength (up to 6.1 times), Young's modulus (up to 3 times), and strain at break (up to 3.2 times) compared to the neat PCL/Gt nanofibers. Evaluations of cell attachment, spreading, and proliferation were done by FESEM observation and MTT assay. Cytocompatibility studies support the biocompatible nature of BA loaded PCL/Gt scaffolds and free BA by demonstrating cell viability of more than 100% in all groups. The results of alkaline phosphatase activity and Alizarin Red assay revealed that osteogenic activity levels of BA loaded PCL/Gt scaffolds and free BA were significantly increased compared to the control group (p < 0.05, p < 0.01, p < 0.001). QRT-PCR results demonstrated that BA loaded PCL/Gt scaffolds and free BA led to a significant increase in osteoblast differentiation of DPSCs through the upregulation of osteogenic related genes compared to the control group (p < 0.05). Based on results, incorporation of BA extract in PCL/Gt scaffolds exhibited synergistic effects on the adhesion, proliferation, and osteogenesis differentiation of hDPSCs and was therefore assumed to be a favorable scaffold for bone tissue engineering applications.

Ethanolic Extract of Berberis Vulgaris Fruits Inhibits the Proliferation of MCF-7 Breast Cancer Cell Line Through Induction of Apoptosis

BACKGROUND: As it is obvious, there is much documentation that shows the importance of breast cancer treatment in patients. High expressions of P53 and Bcl-2 are associated with breast cancer, which are reliable factors to follow up the breast cancer. Berberis vulgaris is used as a traditional medicine in cancer. Despite of the fact that many researches have demonstrated its anti-cancer properties, there are no scientific documents to show its efficacy in detail in breast cancer. OBJECTIVE: Because of traditional use of B. vulgaris and little knowledge about its effects, our research was focused on determining the efficacy and toxicity of B. vulgaris. For this reason, we determined the efficacy of B. vulgaris on breast cancer cells. METHOD: As described in Method section, standard protocols including MTT assay and qPCR were performed to identify the effect of B. vulgaris ethanolic extract against breast cancer cells. RESULTS: Our results clearly demonstrated that 35 mg/ml had IC50 against 3t3 normal cells, and 9 mg/ml of B. vulgaris was effective against MCF-7 breast cancer cells. The results demonstrated that even at only 1 mg/ml concentration of B. vulgaris, crude extract was effective, 9 mg/ml and 12 mg/ml of extract had better anti-cancer activity compared with doxorubicin. CONCLUSION: Despite that the role of anticancer properties of B. vulgaris was clearly defined in some patents, our results demonstrated the potency of B. vulgaris against breast cancer, but further analysis should be performed to candidate this herb as an anti-breast cancer drug.