The efficacy of hydrophobic chemotherapy drugs in cancer treatment is often hampered by their poor solubility in the physiological environment, which causes their low delivery efficiency in the body. This manuscript develops an intelligent nanocarrier (~100 nm) drug delivery system that can highly load a water-insoluble drug, and possesses desirable tumor-targeting properties for cancer therapy. In this system, highly porous silica nanoparticles (pore volume ~ 1.4 cm g) with a dendritic pore structure (denoted as DMSN) are applied as a matrix for drug loading. A facile, vacuum rotary evaporation-mediated casting method is applied to quantitatively load a high content of a hydrophobic drug (i.e., paclitaxel) in the DMSN matrix. A thiol-modified poly(methacrylic acid) (denoted as PMAsh) shell is then assembled and crosslinked via disulfide bonds on the particle surface to improve the dispersibility of the particles in an aqueous environment. After functionalization of the PMAsh shell with the targeting ligand transferrin (Tf), the nanocarriers exhibit accumulation ability on tumor cells, both in vitro and in vivo. Combining the fascinating properties of high drug-loading, excellent colloidal stability, low cytotoxicity, targeting ability and glutathione-responsive PMAsh shell deconstruction properties, the nanocarriers described here hold great promise for the efficient delivery of hydrophobic drugs and tumor treatment.
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