Switchable nanoparticles complexing cisplatin for circumventing glutathione depletion in breast cancer chemotherapy

Cisplatin is broad-spectrum chemotherapeutic agent that has been widely used for the treatment of a va-riety of malignant tumors including breast cancer. However, the cisplatin chemoresistance, which derives from the inactivation by glutathione (GSH) depletion, remains a scientific issue to solve. Here, we re-port a novel type of smart disulfide switchable nanoparticles complexing cisplatin (switch NPs-cisplatin) that is rationally designed, and engineered by synthesizing a hyaluronic acid disulfide bonded polyaspar-tic acid (HA-ss-Pasp) and complexing cisplatin. The results showed that the switch NPs-cisplatin had a nanoscale of particle size (150 nm), higher drug encapsulation efficiency ( > 90%), and suitable drug re-lease profile. They demonstrated evident pH responsiveness and GSH responsiveness, and targeting effect in the resistant breast cancer cells. Furthermore, they were able to block the cisplatin depletion by GSH in the resistant cancer cells, thereby circumventing the chemoresistance. Consequently, switch NPs-cisplatin displayed a remarkable killing effect in the resistant breast cancer cells in vitro , and in the resistant breast cancer-bearing mice. In conclusion, switch NPs-cisplatin could be used as a smart formulation of cisplatin for overcoming the chemoresistance of breast cancer. The present study also offers a universal drug de-livery carrier platform for highly efficient but low systemic toxic chemotherapy.(c) 2023 Published by Elsevier B.V. on behalf of Chinese Chemical Society and Institute of Materia Medica, Chinese Academy of Medical Sciences.