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Co-delivery of combretastatin A4 and docetaxel with pegylated nanostructured lipid carriers in tumor cells


Caifeng Jia
Sen Zhang
Wenpan Li
Chun Chu
Haiyang Hu
Mingxia Wang
Dawei Chen

Abstract

Purpose: To investigate a novel co-delivery system using nanostructured lipid carriers (NLCs) for simultaneous administration of two  potent anti-cancer drugs, combretastatin A-4 (CA-4) and docetaxel (DTX), against tumor cells and vasculature.


Methods: The CA-4 and DTX co-loaded NLCs (C-D-NLC) were formulated and investigated for physical properties, stability, and drug  release. Safety and efficacy of C-D-NLC were investigated on Lewis Lung Carcinoma (LLC) tumor cells in vitro and in vivo using cytotoxicity  and anti-tumor assays. The pharmacokinetics of CA-4 and DTX in rats after intravenous injection of C-D-NLC were also  studied to evaluate potential drug interactions.


Results: The C-D-NLC was successfully prepared with a spherical shape, mean size of 130 nm, negative charge, high encapsulation  efficiency and drug loading of 94.89, 88.16, 2.44, and 4.52 for DTX and CA-4, respectively. Also, C-D-NLC had a significant inhibitory effect  on LLC cells, superior to a single drug or solution group. Combretastatin A4 did not affect the pharmacokinetics of DTX, but combretastatin–docetaxel nanostructured lipid carriers (C-D-NLC) reduced plasma clearance of CA-4 and DTX, prolonged half-life, mean  residence time, and increased area under concentration curves (AUC) values. Furthermore, combretastatin–docetaxel nanostructured  lipid carriers (C-D-NLC) inhibited the growth of LLC tumors in mice and reduced drug toxicity.


Conclusion: Combretastatin–docetaxel  nanostructured lipid carriers (C-D-NLC) sustain drug release and enhance tumor growth inhibition of CA-4 and DTX by targeting both  tumor cells and vasculature. The co-delivery system prolongs drug circulation compared to solution administration. Thus, nanostructured  lipid carriers (NLCs) with dual drug loading may be a promising strategy for clinical combination chemotherapy in future.   


Journal Identifiers


eISSN: 1596-9827
print ISSN: 1596-5996