A peroxidase-like single-atom Fe-N5 active site for effective killing human lung adenocarcinoma cells

Single-atom catalyst (SAC) is one of the newest catalysts, and attracts people's wide attention in cancer therapy based on their characteristics of maximum specific catalytic activity and high stability. We designed and synthesized a Fe-N decorated graphene nanosheet (Fe-N-5/GN SAC) with the coordination number of five. Through enzymology and theoretical calculations, the Fe-N-5/GN SAC has outstanding intrinsic peroxidase-like catalytic activity due to single-atom Fe site with five-N-coordination structure. We explored its potential on lung cancer therapy, and found that it could kill human lung adenocarcinoma cells (A549) by decomposing hydrogen peroxide (H2O2) into toxic reactive oxygen species (ROS) under acidic microenvironment in three-dimensional (3D) lung cancer cell model. Our study demonstrates a promising application of SAC with highly efficient single-atom catalytic sites for cancer treatment.

Automated summary

Single-atom catalysts have attracted attention in cancer therapy due to their high catalytic activity and stability. In this study, Fe-N-5/GN SAC was designed and synthesized, which exhibited exceptional peroxidase-like catalytic activity and could kill lung cancer cells by decomposing H2O2 under an acidic microenvironment.