Combination of different therapy modalities with multiple tumoricidal mechanisms has emerged as a promising anticancer strategy. Herein, we reported an aldehyde/catechol-functionalized hyaluronic acid (DAHA) and hydroxyethyl chitosan (HECS) decorated gold nanorod (GNR) platform for combined chemo-photothermal therapy of breast cancer. The DAHA was synthesized by conjugating dopamine onto oxidized hyaluronic acid. The nanoplatform was prepared by successively modifying GNR with DAHA via Au-catechol bonds, conjugating DOX onto DAHA moiety through Schiff base linkage, and coating HECS interlayer for charge-reversal and hyaluronic acid corona for tumor cell targeting. The resulting nanoplatform GNR-HADOXCH exhibited acid-triggered surface charge-reversal and pH/NIR dual-responsive drug release behaviors. The nanoplatform could be efficiently internalized into MCF-7 breast cancer cells and displayed greater cancer cell killing than individual modalities. Therefore, polysaccharide decoration could ensure the co-delivery of GNR and DOX into cancer cells, and the developed GNR-HADOXCH holds great potential for breast cancer treatment.
Keywords: Charge-reversal; Combined chemo-photothermal therapy; Dual-responsiveness; Gold nanorod; Hyaluronic acid; Hydroxyethyl chitosan.
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