Abstract
The effectiveness of chemokinetic therapy nanozymes is severely constrained because of the low H2O2 levels in the tumor microenvironment. Unlike other self-produced H2O2 nanozymes, the N-CNTs-encapsulated CoNi alloy (CoNiCoNC) with glucose oxidase and lactate oxidase activities has two ways to produce H2O2. It can facilitate the transformation of glucose and lactic acid into H2O2 simultaneously. First, the H2O2 generation pathway is favorable for aggravating energy metabolism. Second, some produced H2O2 can be decomposed by CoNiCoNC to H2O and O2 with the 4e− pathway to alleviate the TME hypoxia. Third, H2O2 can be catalyzed to form OH to enhance reactive oxygen species (ROS) content. Through proteomic analysis, nanozymes substantially impact the metabolic pathways of cancer cells because of their aggravating energy metabolism. The high levels of ROS can cause mitochondrial lipid peroxidation and cellular ferroptosis. Consequently, the two-way H2O2-selective nanoenzymatic platform realizes the synergistic effect of starvation therapy and chemokinetics.
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