The objective of the present study was to prepare and characterize emodin (EMO)-loaded solid lipid nanoparticles (E-SLNs) and evaluate their antitumor activity in vitro. EMO and pharmaceutical lipid material were used to prepare E-SLNs by high pressure homogenization (HPH). Poloxamer 188 and Tween 80 were used as surfactants. The physicochemical properties of the E-SLNs were investigated by particle size analysis, zeta potential measurement, drug entrapment efficiency (EE), stability and in vitro drug release behavior. The E-SLNs showed stable particle size at 28.6 ± 3.1 nm, ideal drug EE and relative long-term physical stability after being stored for 4 months. The drug release of E-SLNs could last 72 h and exhibited a sustained profile, which made it a promising vehicle for oral drug delivery. MTT assay showed that E-SLNs could significantly enhance the in vitro cytotoxicity against human breast cancer cell line MCF-7 and MDA-MB-231 cells compared to the EMO solution, while free EMO, blank SLNs (B-SLNs) and E-SLNs all showed no significant toxicity to human mammary epithelial line MCF-10A cells. Flow cytometric analysis demonstrated that E-SLNs also showed more significant cell cycle arrest effect in MCF-7 cells compared to bulk EMO solution. Hoechst 33342 staining and Annexin V-FITC/PI double staining further confirmed that E-SLNs induced higher apoptotic rates in MCF-7 cells, indicating that cell cycle arrest and apoptosis maybe the underlying mechanism of the enhanced cytotoxicity. Taken together, it seems that HPH was a simple, available and effective method for preparing high quality E-SLNs to enhance its aqueous solubility. Moreover, these results suggest that the delivery of EMO as lipid nanoparticles maybe a promising approach for cancer therapy.
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