A reduction-dissociable PEG-b-PGAH-b-PEI triblock copolymer as a vehicle for targeted co-delivery of doxorubicin and P-gp siRNA
文献情報
Minghui Xu, Junmin Qian, Aili Suo, Ting Liu, Xuefeng Liu, Hongjie Wang
To enhance the therapeutic efficacy of doxorubicin (DOX) to breast cancer cells, a multifunctional triblock copolymer, poly(ethylene glycol)-block-poly(L-glutamic acid γ-hydrazide)-block-polyethylenimine (PEG-b-PGAH-b-PEI) having a cleavable disulfide linkage between blocks, was developed as a vehicle for targeted co-delivery of DOX and P-glycoprotein (P-gp) siRNA into MCF-7/ADR cells. The PGAH blocks were used to chemically conjugate DOX molecules via hydrazone bonds, while the PEI blocks could complex siRNA through electrostatic interactions. A tumor-targeting agent, folic acid (FA), was attached to the distal ends of the PEG blocks to specifically bind to the folate receptors overexpressed in MCF-7/ADR cells. The DOX-conjugated copolymer would self-assemble in aqueous solutions into cationic nanomicelles, which could condense siRNA to form nanomicelleplexes with an average particle size of ∼194 nm and a positive zeta potential of >+10 mV. The nanomicelleplexes exhibited sustained drug release profiles, and the release rates of DOX and siRNA from the nanomicelleplexes in a reductive acidic environment (pH 5.0 + 10 mM glutathione) were much faster than those under physiological conditions (pH 7.4). FA-decorated nanomicelleplexes were more efficiently internalized by MCF-7/ADR cells via folate-receptor-mediated endocytosis and exhibited a higher cytotoxic effect on MCF-7/ADR cells in comparison with FA-undecorated nanomicelleplexes. Furthermore, the synergistic effects of DOX and P-gp siRNA in inhibiting cell proliferation and inducing apoptosis in MCF-7/ADR cells were achieved by the FA-targeted co-delivery system. The triblock copolymer itself had a low cytotoxicity. These results indicate that the triblock copolymer could serve as an ideal tumor-targeting vehicle for simultaneous delivery of drugs and siRNA in breast cancer therapy.
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