Inhalable DNase I@Au hybrid nanoparticles for radiation sensitization and metastasis inhibition by elimination of neutrophil extracellular traps

Biomaterials. 2025 Jan 8:317:123095. doi: 10.1016/j.biomaterials.2025.123095. Online ahead of print.

Abstract

High-dose radiation therapy is a widely used clinical strategy to inhibit tumor growth. However, the rapid generation of excessive reactive oxygen species (ROS) triggers the formation of neutrophil extracellular traps (NETs), which capture free tumor cells in the bloodstream, promoting metastasis. In this study, we developed a hybrid nanoparticle composed of DNase I and gold (DNase I@Au) to enhance radiotherapy efficacy while mitigating metastasis by precisely eliminating NETs. The DNase I@Au nanoparticles, administered via aerosol inhalation, are efficiently delivered to lung tumor tissue, improving radiosensitization and reducing tumor size. Crucially, the nanoparticles could gradually release DNase I, effectively degrading ROS-induced NETs and preventing the interaction of free malignant cells with tumor sites or vasculature, thereby inhibiting metastasis. Therefore, we provide an enzyme and sensitizer co-loaded strategy that offers a promising approach to improve the therapeutic outcome of radiotherapy and reduce the risk of lung cancer metastasis under ROS stimulation.