Abstract

Chemotherapy proves to be a successful method in treating primary breast cancer. Ironically, some commonly used chemotherapeutics may promote lung metastasis by increasing the activity of activating transcription factor 3 (ATF3). Thus, it is necessary to inhibit tumor metastasis while improving the anti-tumor effect of anti-cancer drugs. Herein, using curcumol (CUR) that possesses both anti-tumor and anti-metastasis activities as a model drug, we designed the nanogels based on temperature-responsive self-assembly and glutathione-triggered disassembly to address the abovementioned conflicts. Briefly, the copolymers (H-SS-P) were synthesized by coupling poly (N-isopropylacrylamide) onto hyaluronic acid (HA) via a disulfide bond-containing linker cystamine dihydrochloride. Copolymers could self-assemble into regular spherical nanogels at 37 °C with a 40-nm particle size for PNIPAAm's thermosensitivity. Hydrophobic CUR could be automatically entrapped into the core of nanogels. The H-SS-P@CUR nanogels could release drugs quickly upon exposure to the reductive tumor microenvironment. The superior efficacy of H-SS-P@CUR on inhibiting tumor growth was validated through assays both in vivo and in vitro. Moreover, nanogels may better down-regulate the expression of ATF3 protein by enhancing the cell uptake and tumor targeting of CUR, thereby significantly improving the anti-metastasis effect of CUR. This work not only proposed a novel strategy to simplify the preparation process of nanogels but also achieved effective drug delivery with enhanced anti-cancer and anti-metastasis effects.

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