Narrow-Bandgap Iridium(III)-C<sub>3</sub>N<sub>5</sub> Nanocomplex as an Oxygen Self-Sufficient Piezo-Sonosensitizer for Hypoxic Tumor Sonodynamic Immunotherapy
Xianbo Wu, Jinzhe Liang, Jun Shu, Zeqi Li, Tiantian Yin, Xiting Zhang, Hui Chao
Abstract
Low immunogenicity and insufficient infiltration of immune cells are the main factors affecting the therapeutic efficacy of melanoma immunotherapy. Ultrasound-triggered sonodynamic therapy (SDT) based on piezoelectric materials has attracted substantial attention due to its high efficiency of piezoelectric catalytic generation of reactive oxygen species (ROS) to induce immunogenic cell death (ICD). However, the hypoxic environment in solid tumors hinders the infiltration of immune cells and limits the SDT effect. Herein, we construct a novel Ir-C 3 N 5 nanocomplex that uses nitrogen-rich carbon nitride (C 3 N 5 ) nanosheets as nanoligands and Ir(tpy)Cl 3 as a precursor. The newly formed Ir-C 3 N 5 nanocomplex exhibits a narrowed band gap and an enlarged dipole moment, resulting in a better electron–hole pair separation and band bending, contributing to the ROS burst upon ultrasonic activation. In addition, Ir(III) enables the C 3 N 5 nanosheets to catalyze the degradation of H 2 O 2 to O 2, alleviating tumor hypoxia and reinforcing SDT efficacy. Mechanistically, due to the generation of ROS by piezoelectric catalysis, Ir-C 3 N 5 can target lysosomes to trigger autophagy inhibition caused by lysosome rupture and to evoke pyroptosis. More importantly, the cleaved caspase-1/GSDMD-N pyroptosis pathway activated by Ir-C 3 N 5 was associated with ICD, effectively initiating the innate and adaptive immunity of the body for suppressing tumor metastasis and relapse.