A photo and tumor microenvironment activated nano-enzyme with enhanced ROS generation and hypoxia relief for efficient cancer therapy.
Yali ChenYujun CaiXingsu YuHong XiaoHaozhe HeZe-Cong XiaoYong WangXin-Tao ShuaiPublished in: Journal of materials chemistry. B (2021)
Reactive oxygen species (ROS) mediated tumor therapy strategies have exhibited great prospects and attracted increasing attention, among which photodynamic therapy (PDT) has been well-established. However, the anticancer effects of PDT are greatly limited by the hypoxic tumor microenvironment (TME). Hence, exploring a therapeutic strategy that can relieve tumor hypoxia is regarded as the key to overcoming this problem. Herein, we develop a novel nano-enzyme (MnO2@TPP-PEG) that can accurately conduct tumor-specific catalysis of H2O2 to produce oxygen through a Fenton-like reaction, leading to an enhanced PDT under the irradiation of light. More importantly, the process of catalyzing H2O2 decomposition at the tumor location can also generate a cytotoxic hydroxyl radical (˙OH), achieving an excellent chemodynamic therapy (CDT) to enhance the ROS mediated anti-cancer effect. Notably, the nano-enzyme exerts a high loading content of the photosensitizer, which minimizes the side effects probably caused by the vector.