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High-entropy alloy Janus artificial enzymes for pH-gated sequential redox therapy of drug-resistant bacterial infection

Cong Han, Yongqi Wang, Shihuan Gao, Ting Wang, Huili Du, Jie Long, Weidong Tian, Mohsen Adeli, Liang Cheng, Zhi Liu, Tian Chen, Chong Cheng

2026Nature Communications5 citationsDOIOpen Access PDF

Abstract

Drug-resistant bacterial infections in chronic wounds remain a critical challenge, particularly under persistent inflammation. Here, we report the de novo design of high-entropy alloy (HEA, PtFeCuCoNi)-based Janus artificial enzymes with pH-gated redox biocatalysis for sequential antibacterial and repair functions. The multi-metal synergy stabilizes the d-band center, allowing acidic oxidase/peroxidase-like activity and neutral antioxidase-like activity. In infection, the enzymes generate bactericidal reactive oxygen species (ROS) to eliminate methicillin-resistant Staphylococcus aureus (MRSA) and biofilms at ultralow concentrations (8 μg/mL). During healing, they scavenge ROS, alleviate oxidative injury and support cellular proliferation. In MRSA-infected wounds, this dual-action system clears bacteria and then accelerates regeneration through enhanced neovascularization and matrix remodeling. Mechanistic analyses reveal PFKFB3-mediated metabolic reprogramming, suppression of pro-inflammatory cytokines, and macrophage polarization toward the M2 phenotype. Integrating pH-gated antimicrobial and immunomodulatory repair within one nanoplatform, this strategy addresses the conflicting demands of infection control and tissue healing.

Topics & Concepts

EnzymeBiofilmChemistryBacteriaReactive oxygen speciesAntimicrobialStaphylococcus aureusMicrobiologyOxidative phosphorylationJanus kinaseBiochemistryBiocatalysisCell biologyJanusRedoxMetabolic pathwayDNA repairRegeneration (biology)Microbial metabolismOxidative stressBiologyMacrophageRational designPhagocytosisCofactorOxygenAdvanced Nanomaterials in CatalysisNanoplatforms for cancer theranosticsGraphene and Nanomaterials Applications