Oxygen-Generating Hydrogels Overcome Tumor Hypoxia to Enhance Photodynamic/Gas Synergistic Therapy
Mi Zhang, Xiaoguang Liu, Yinghua Mao, Yuhang He, Juan Xu, Feng Zheng, Weilong Tan, Shu Rong, Yonghong Chen, Xuemei Jia, Hong Li
Abstract
Hypoxic environment is a bottleneck of photodynamic therapy (PDT) in tumor treatment, as oxygen is the critical substrate for photosensitivity reaction. Herein, a sustained oxygen supply system based on cerium nanoparticles and hydrogel (GHCAC) was explored for enhanced synergistic PDT and gas therapy. Ceria nanoparticles were prepared as a drug carrier by self-assembly mediated by hyaluronic acid (HA), a targeting for CD44 on cervical cancer cells, followed by photosensitizer and l-arginine (l-Arg) loading. Then, the GHCAC system was developed by incorporating a prepared nanocarrier (HCePA) and O2-evolving agent calcium peroxide (CaO2) into the hydrogel (Gel) developed by a poloxamer. Gel in the system could moderately infiltrate H2O to react with CaO2 and generate sustained oxygen using the catalase-like activity of HCePA. The system could efficiently alleviate hypoxia in tumor environments for up to 7 days, meeting the “once injection, repeat irradiation” strategy and enhanced PDT efficacy. Besides, the generated singlet oxygen (1O2) in the PDT process could also oxidize l-Arg into high concentrations of nitric oxide for synergistic gas therapy. The developed oxygen supplied and drug delivery Gel system is a new strategy for synergistic PDT/gas therapy to overcome cervical cancer.