Abstract
Novel enoxaparin sodium-PLGA hybrid nanocarries (EPNs) were successfully designed for sustained delivery of hydrophilic cationic doxorubicin hydrochloride (DOX) and to overcome multidrug resistance (MDR). By incorporation of the negative polymer of enoxaparin sodium (ES), DOX was highly encapsulated into EPNs with an encapsulation efficiency of 92.49%, and ES effectively inhibited the proliferation of HUVEC cell lines. The in vivo pharmacokinetics study after intravenous injection indicated that DOX-loaded EPNs (DOX-EPNs) exhibited a higher area under the curve (AUC) and a longer half-life (t1/2) in comparison with DOX solution (DOX-Sol). The biodistribution study demonstrated that DOX-EPNs increased the DOX level in plasma and decreased the accumulation of DOX in liver and spleen. Compared with DOX-Sol, DOX-EPNs increased the cytotoxicity in P-gp over-expressing MCF-7/Adr cells, attributed to the higher intracellular efficiency of DOX produced by the EPNs. DOX-EPNs entered into resistant tumor cells by multiple endocytosis pathways, which resulted in overcoming the multidrug resistance of MCF-7/Adr cells by escaping the efflux induced by P-gp transporters.
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