Self-Assembled pH and Redox Dual Responsive Carboxymethylcellulose-Based Polymeric Nanoparticles for Efficient Anticancer Drug Codelivery.

To face the growing demand of polymeric nanoparticles with biocompatibility and a drug release profile, in this work, a novel carboxymethylcellulose-based pH and redox dual-responsive polymeric nanoparticle, carboxymethyl cellulose-dithiopropionate hydrazide-8arm-polyethylene glycol-pterostilbene/10-hydroxy camptothecin (CTPP/HCPT), was prepared for efficient drug codelivery. These well-dispersed CTPP/HCPT NPs were prepared with a dimension of around 144 nm and exhibited high binary drug loading capacity and good biocompatibility. The biggest advantage of this design is that these nanoparticles can rapidly release the drug payload responding to intracellular acidic or reductive stimuli, while maintaining sufficient stability under normal physiological conditions. The in vitro drug release study revealed that the HCPT payload released from nanoparticles in a weakly acidic environment with 10 mM reductive glutathione was about 74.8%, which was 3.8-fold higher than under normal physiological conditions (∼19.6%). Further in vitro and in vivo investigation demonstrated that such dual-responsive CTPP/HCPT NPs could potently kill cancer cells and suppress tumor growth with lower adverse effects. All these results suggested that CTPP/HCPT NPs were suitable as potential and effective candidates for cancer therapy.