摘要
The combination of chemotherapy and photodynamic therapy provides a promising approach for enhanced tumor eradication by overcoming the limitations of each individual therapeutic modality.However,tumor is pathologically featured with extreme hypoxia together with the adaptable overexpression of anti-oxidants,such as glutathione(GSH),which greatly restricts the therapeutic efficiency.Here,a combinatorial strategy was designed to simultaneously relieve tumor hypoxia by self-oxygenation and reduce intracellular GSH level to sensitize chemo-photodynamic therapy.In our system,a novel multifunctional nanosystem based on MnO_(2)-doped graphene oxide(GO)was developed to co-load cisplatin(Cis Pt)and a photosensitizer(Ce6).With Mn O_(2)doping,the nanosystem was equipped with intelligent functionalities:(1)catalyzes the decomposition of H_(2)O_(2)into oxygen to relieve the tumor hypoxia;(2)depletes GSH level in tumor cells,and(3)concomitantly generates Mn^(2+)to proceed Fenton-like reaction,all of which contribute to the enhanced anti-tumor efficacy.Meanwhile,the surface hyaluronic acid(HA)modification could facilitate the targeted delivery of the nanosystem into tumor cells,thereby resulting in amplified cellular toxicity,as well as tumor growth inhibition in nude mice model.This work sheds a new light on the development of intelligent nanosystems for synergistic combination therapy via regulating tumor microenvironment.
基金
supported by Innovation-Driven Project of Central South University(No.20170030010004,China)
National Natural Science Foundation of China(No.21804144,U1903125,China)
Project of Hunan Science and Technology(No.2020JJ8091,China)
Hunan Engineering Research Center for Optimization of Drug Formulation and Early Clinical Evaluation(No.2015TP2005,China)。
