Copper‐Bacteriochlorin Nanosheet as a Specific Pyroptosis Inducer for Robust Tumor Immunotherapy
Yunxiu Zhang, Qingyan Jia, Jian Li, Jian Wang, Ke Liang, Xiaokuang Xue, Tiejin Chen, Lin Kong, Haohui Ren, Weimin Liu, Pengfei Wang, Jiechao Ge
Abstract
Abstract Pyroptosis is increasingly considered a new weathervane in cancer immune therapy. However, triggering specific pyroptotic tumor cell death while preserving normal cells still remains a major challenge. Herein, a brand‐new pyroptosis inducer, copper‐bacteriochlorin nanosheet (Cu‐TBB), is designed. The synthesized Cu‐TBB can be activated to an “on” state in the tumor microenvironment with glutathione (GSH) overexpression, leading to the release of Cu + and TBB, respectively. Intriguingly, the released Cu + can drive cascade reactions to produce O 2 −• and highly toxic ·OH in cells. Additionally, the released TBB can also generate O 2 −• and 1 O 2 upon 750 nm laser irradiation. Encouragingly, both Cu + ‐driven cascade reactions and photodynamic therapy pathways result in potent pyroptosis along with dendritic cell maturation and T cell priming, thus simultaneously eliminating the primary tumors and inhibiting the distant tumor growth and metastases. Conclusively, the well‐designed Cu‐TBB nanosheet is shown to trigger specific pyroptosis in vitro and in vivo, leading to enhanced tumor immunogenicity and antitumor efficacy while minimizing systemic side effects.