Dujuan Zhao scite author profile

Here, we prepared novel redox-sensitive drug delivery system based on copolymer-drug conjugates methoxy poly(ethylene glycol)-poly(γ-benzyl l-glutamate)-disulfide-docetaxel (mPEG-PBLG-SS-DTX) to realize the desirable cancer therapy. First, copolymers of methoxy poly(ethylene glycol)-poly(γ-benzyl l-glutamate) (mPEG-PBLGs) with different molecular weight (mPEG2000-PBLG1750 and mPEG5000-PBLG1750) were synthesized via the ring open polymerization (ROP) of 5-benzyl-l-glutamate-N-carboxyanhydride (γ-Bzl-l-Glu-NCA) initiated by monoamino-terminated mPEG (mPEG-NH2). Then, the docetaxel (DTX) was conjugated to the block polymers through a linkage containing disulfide bond to obtain mPEG-PBLG-SS-DTXs, including mPEG2000-PBLG1750-SS-DTX and mPEG5000-PBLG1750-SS-DTX. The obtained copolymer-drug conjugates mPEG2000-PBLG1750-SS-DTX and mPEG5000-PBLG1750-SS-DTX could self-assemble into nanosized micelles in aqueous environment via dialysis method with a low critical micelle concentration (CMC, 3.98 and 6.94 μg/mL, respectively). The size of the micelles was approximately 101.3 and 148.9 nm, respectively, with a narrow size distribution. They released approximately 40% DTX in a sustained way in the presence of 50 mM DTT after 120 h in comparison with only approximately 10% DTX released from micelles in the absence of DTT. The high cytotoxicity was identified for mPEG-PBLG-SS-DTXs micelles against MCF-7/ADR and A549 cells, and the IC50 of mPEG-PBLG-SS-DTXs micelles against MCF-7/ADR for 24 h was roughly a 15th of the value of free DTX. Moreover, the mPEG-PBLG-SS-DTXs micelles could be efficiently uptaken by MCF-7/ADR and A549 cells. Thus, the present constructed mPEG-PBLG-SS-DTXs micelles were very promising for effective cancer therapy.

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Disulfide bond based polymeric drug carriers for cancer chemotherapy and relevant redox environments in mammals

Zhang

Xiao

et al. 2018

Medicinal Research Reviews

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Increasing numbers of disulfide linkage-employing polymeric drug carriers that utilize the reversible peculiarity of this unique covalent bond have been reported. The reduction-sensitive disulfide bond is usually employed as a linkage between hydrophilic and hydrophobic polymers, polymers and drugs, or as cross-linkers in polymeric drug carriers. These polymeric drug carriers are designed to exploit the significant redox potential difference between the reducing intracellular environments and relatively oxidizing extracellular spaces. In addition, these drug carriers can release a considerable amount of anticancer drug in response to the reducing environment when they reach tumor tissues, effectively improving antitumor efficacy. This review focuses on various disulfide linkage-employing polymeric drug carriers. Important redox thiol pools, including GSH/GSSG, Cys/CySS, and Trx1, as well as redox environments in mammals, will be introduced.

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Redox-sensitive mPEG-SS-PTX/TPGS mixed micelles: An efficient drug delivery system for overcoming multidrug resistance

Zhao

Zhang

Yang

et al. 2016

International Journal of Pharmaceutics

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Co-delivery of docetaxel and verapamil by reduction-sensitive PEG-PLGA-SS-DTX conjugate micelles to reverse the multi-drug resistance of breast cancer

Guo

Yang

et al. 2017

Colloids and Surfaces B: Biointerfaces

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Precise ratiometric loading of PTX and DOX based on redox-sensitive mixed micelles for cancer therapy

Zhao

et al. 2017

Colloids and Surfaces B: Biointerfaces

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Dujuan Zhao

Disulfide-Linked Amphiphilic Polymer-Docetaxel Conjugates Assembled Redox-Sensitive Micelles for Efficient Antitumor Drug Delivery

Disulfide bond based polymeric drug carriers for cancer chemotherapy and relevant redox environments in mammals

Redox-sensitive mPEG-SS-PTX/TPGS mixed micelles: An efficient drug delivery system for overcoming multidrug resistance

Co-delivery of docetaxel and verapamil by reduction-sensitive PEG-PLGA-SS-DTX conjugate micelles to reverse the multi-drug resistance of breast cancer

Precise ratiometric loading of PTX and DOX based on redox-sensitive mixed micelles for cancer therapy

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