In vitro and in vivo evaluation of folate-mediated PEGylated nanostructured lipid carriers for the efficient delivery of furanodiene

Furanodiene (FN) loaded FA-PEG₂₀₀₀-DSPE modified nanostructured lipid carriers (FA-FN-NLCs) were developed to increase the solubility and bioavailability of FN, prolong the circulation time in blood and improve the targeting ability. FA-FN-NLCs were prepared using emulsification-ultrasonic and low temperature-solidification method and optimized by central composition design (CCD). In vitro and in vivo characteristics of FA-FN-NLCs were investigated in detail. The optimized formulations exhibited a spherical shape with particle size of 127.4?±?2.62?nm, PDI of 0.268?±?0.04, zeta potential of –14.7?±?1.08?mV, high encapsulation efficiency of 89.04?±?2.26% and loading capacity of 8.46?±?0.20%. Differential scanning calorimetry (DSC) indicated that FN was not in crystalline state in FA-FN-NLCs. In vitro drug release exhibited a biphasic release pattern which showed a relative burst drug release at the initial time and followed by a prolonged drug release. In vivo, compared with FN solution (FN-SOL) and FN loaded traditional NLCs (FN-NLCs), FA-FN-NLCs had a longer blood circulating time (t_1/2) and higher area under the curve (AUC). NiR fluorescence imaging study demonstrated that FA-FN-NLCs specially accumulated in tumor site by the receptor-mediated endocytosis. This study showed that FA-FN-NLCs was a promising drug delivery system for FN in the treatment of cancer.