题目：

Modulating the Electronic Structure of MnNi₂S₃Nanoelectrodes to Activate Pyroptosis for Electrocatalytic Hydrogen-Immunotherapy

作者：

Jingrui Li, Gang Wang*, Zhaoyu Wen, Shumin Sun, Zhihui Han, Yuqi Yang, Jie Wu, Zifan Pei, Luyao Liu, Youdong Chen, and Liang Cheng*

单位：

Institute of Functional Nano and Soft Materials (FUNSOM), Jiangsu Key Laboratory for Carbon-Based Functional Materials and Devices, Soochow University, Suzhou 215123, China.

摘要：

Hydrogen (H₂) therapy has demonstrated antitumor effect, but the therapeutic efficacy is restricted by the low solubility and nontarget delivery of H₂. Electrolysis of H₂O by electrocatalysts sustainably releases enormous amounts of H₂and inspires the precise delivery of H₂for tumor therapy. Herein, manganese-doped Ni₂S₃nanoelectrodes (MnNi₂S₃NEs) are designed for the electrocatalytic delivery of H₂and the activation of antitumor immunity to effectively potentiate H₂-immunotherapy. Ni atoms featuring empty 3d orbitals reduce the initial energy barrier of the hydrogen evolution reaction (HER) by promoting the adsorption of H₂O. Moreover, Mn atoms with different electronegativity modulate the electronic structure of Ni atoms and facilitate the desorption of the generated H₂, thus enhancing the HER activity of the MnNi₂S₃NEs. Based on the high HER activity, controllable delivery of H₂for electrocatalytic hydrogen therapy (EHT) is achieved in a voltage-dependent manner. Mechanistically, MnNi₂S₃NE-mediated EHT induces mitochondrial dysfunction and oxidative stress, which subsequently activates pyroptosis through the typical ROS/caspase-1/GSDMD signaling pathway. Furthermore, MnNi₂S₃NE-mediated EHT enhances the infiltration of CD8⁺T lymphocytes into tumors and reverses the immunosuppressive microenvironment. This work demonstrates an electrocatalyst with high HER activity for synergistic gas-immunotherapy, which may spark electrocatalyst-based tumor therapy strategies.

影响因子：

27.4

分区情况：

一区

链接：

https://doi.org/10.1002/adma.202412925