Stimulus-responsive polymers are promising drug delivery systems for cancer therapy. However, low drug loading and drug leakage of polymeric carriers remain challenges. Here, a crosslinked diselenide-containing micelle was developed with pH/GSH dual responsiveness. Polyesters with multiple diselenide bonds and pendant ketone groups were synthesized by the ring-opening copolymerization of three cyclic monomers (diselenide-containing macrocyclic carbonate, 2-oxepane-1,5-dione, and 1,3-dioxan-2-one). The crosslinked polyester was obtained by the oxime click reaction of pendant ketone groups with hydroxylamine and then self-assembled into crosslinked micelle. This crosslinked micelle remained stable for 14 days, and responded to disassembly under the condition of pH = 5.0 and 10 mM glutathione (GSH). When the crosslinked micelle was loaded with the chemotherapeutic drug DOX, which possessed an active ketone group, the encapsulation efficiency of the crosslinked micelle increased to 91.36 %. The cumulative DOX release reached approximately 45 % under pH = 5.0 and 10 mM GSH. Importantly, the crosslinked diselenide-containing micelle could be taken up in MCF-7 breast cancer cells, responding to the tumor microenvironment and releasing encapsulated DOX. This crosslinked diselenide-containing micelle with pH/GSH dual responsiveness was proven to be a stable and efficient carrier with a promising application.
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