Background: Combination chemotherapy of chemo-drugs and natural herbal drugs has been shown to be more advantageous than individual treatment with respect to enhancing cytotoxicity, alleviating toxicity and controlling the development of multidrug resistance (MDR). Purpose: The goal of this study is to construct a combined drug delivery system of curcumin liposomes (CUR-LPs) and paclitaxel liposomes (PTX-LPs) to enhance the anticancer activity and reverse the MDR of PTX. Methods: CUR-LPs and PTX-LPs were prepared by solvent evaporation method with optimal formulation composition. MTT assay was used to assess the effect of the combination of CUR-LPs and PTX-LPs treatments on the proliferation of A549/A549-T cells. In addition, the pharmacokinetic behaviors of the combination treatments were evaluated by HPLC. Results : The mixed liposomes were found to have negative zeta-potential (-17.91 ± 1.21 mV) and relatively uniform particle size (105.88 ± 3.19 nm) with a low polydispersity index (0.21 ± 0.016). IC50 of PTX for combination of CUR-LPs and PTX-LPs decreased in the range of 1.47-2.9 times and 1.59-2.5 times compared to the free-drug counterparts in A549 and A549-T cells, respectively. Superior cytotoxicity and higher synergy (CI< 0.4) were observed for the combination treatment with ratio of 40:1 (CUR-LPs:PTX-LPs) compared with the free-drug counterparts in both cell lines tested. Following intravenous administration in rats, liposomes presented higher bioavailability (CUR-LPs: 9.02 fold; PTX-LPs: 7.32 fold) compared to free drugs. Co-administration did not alter the respective pharmacokinetic behaviors. Conclusion: Overall, the present study presents a promising strategy for the development of compound formulations of CUR and PTX.
Background: Combination chemotherapy of chemo-drugs and natural herbal drugs has been shown to be more advantageous than individual treatment with respect to enhancing cytotoxicity, alleviating toxicity and controlling the development of multidrug resistance (MDR). Purpose: The goal of this study is to construct a combined drug delivery system of curcumin liposomes (CUR-LPs) and paclitaxel liposomes (PTX-LPs) to enhance the anticancer activity and reverse the MDR of PTX. Methods:CUR-LPs and PTX-LPs were prepared by solvent evaporation method with optimal formulation composition. MTT assay was used to assess the effect of the combination of CUR-LPs and PTX-LPs treatments on the proliferation of A549/A549-T cells. In addition, the pharmacokinetic behaviors of the combination treatments were evaluated by HPLC. Results : The mixed liposomes were found to have negative zeta-potential (-17.91 ± 1.21 mV) and relatively uniform particle size (105.88 ± 3.19 nm) with a low polydispersity index (0.21 ± 0.016). IC50 of PTX for combination of CUR-LPs and PTX-LPs decreased in the range of 1.47-2.9 times and 1.59-2.5 times compared to the free-drug counterparts in A549 and A549-T cells, respectively. Superior cytotoxicity and higher synergy (CI< 0.4) were observed for the combination treatment with ratio of 40:1 (CUR-LPs:PTX-LPs) compared with the free-drug counterparts in both cell lines tested. Following intravenous administration in rats, liposomes presented higher bioavailability (CUR-LPs: 9.02 fold; PTX-LPs: 7.32 fold) compared to free drugs. Co-administration did not alter the respective pharmacokinetic behaviors. Conclusion: Overall, the present study presents a promising strategy for the development of compound formulations of CUR and PTX.