Hongzhuo Liu scite author profile

Rational design of nanoparticulate drug delivery systems (nano-DDS) for efficient cancer therapy is still a challenge, restricted by poor drug loading, poor stability, and poor tumor selectivity. Here, we report that simple insertion of a trisulfide bond can turn doxorubicin homodimeric prodrugs into self-assembled nanoparticles with three benefits: high drug loading (67.24%, w/w), high self-assembly stability, and high tumor selectivity. Compared with disulfide and thioether bonds, the trisulfide bond effectively promotes the self-assembly ability of doxorubicin homodimeric prodrugs, thereby improving the colloidal stability and in vivo fate of prodrug nanoassemblies. The trisulfide bond also shows higher glutathione sensitivity compared to the conventional disulfide bond, and this sensitivity enables efficient tumor-specific drug release. Therefore, trisulfide bond–bridged prodrug nanoassemblies exhibit high selective cytotoxicity on tumor cells compared with normal cells, notably reducing the systemic toxicity of doxorubicin. Our findings provide new insights into the design of advanced redox-sensitive nano-DDS for cancer therapy.

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Nanopreparations for mitochondria targeting drug delivery system: Current strategies and future prospective

Wang

Guo

Xiao

et al. 2017

Asian Journal of Pharmaceutical Sciences

131

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Current strategies for drug delivery to the inner ear

Liu

Hao

2013

Acta Pharmaceutica Sinica B

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Hongzhuo Liu

Near-infrared light-responsive inorganic nanomaterials for photothermal therapy

Effect of surfactants on the formation and characterization of a new type of colloidal drug delivery system: Nanostructured lipid carriers

Trisulfide bond–mediated doxorubicin dimeric prodrug nanoassemblies with high drug loading, high self-assembly stability, and high tumor selectivity

Nanopreparations for mitochondria targeting drug delivery system: Current strategies and future prospective

Current strategies for drug delivery to the inner ear

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