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Pathogen‐Targeting Bimetallic Nanozymes as Ultrasonic‐Augmented ROS Generator against Multidrug Resistant Bacterial Infection

Hong Yao, Ruixue Zhou, Jiaming Wang, Yongbin Wei, Shihong Li, Zhenzhong Zhang, Xiang‐Dang Du, Sixuan Wu, Jinjin Shi

2023Advanced Healthcare Materials33 citationsDOI

Abstract

Clinical treatment of multidrug resistant (MDR) pathogens-induced infection is emerging as a growing challenge in global public health due to the limited selection of clinically available antibiotics. Nanozymes as artificial enzymes that mimicked natural enzyme-like activities, are received great attention for combating MDR pathogens. However, the relatively deficient catalytic activity in the infectious microenvironment and inability to precisely targeting pathogen restrains their clinical anti-MDR applications. Here, pathogen-targeting bimetallic BiPt nanozymes for nanocatalytic therapy against MDR pathogen are reported. Benefiting from electronic coordination effect, BiPt nanozymes exhibit dual-enzymatic activities, including peroxidase-mimic and oxidase-mimic activities. Moreover, the catalytic efficiency can be efficiently increased 300-fold by ultrasound under inflammatory microenvironment. Notably, BiPt nanozyme is further cloaked with a platelet-bacteria hybrid membrane (BiPt@HMVs), thus presenting excellent homing effect to infectious sites and precise homologous targeting to pathogen. By integrating accurate targeting with highly efficient catalytic, BiPt@HMVs can eliminate carbapenem-resistant Enterobacterales and methicillin-resistant Staphylococcus aureus in osteomyelitis rats model, muscle-infected mice model, and pneumonia mice model. The work provides an alternative strategy based on nanozymes for clinically addressing MDR bacteria-induced infections.

Topics & Concepts

PathogenMultiple drug resistanceMicrobiologyStreptococcus pneumoniaeBiologyAntibioticsAdvanced Nanomaterials in CatalysisNanoplatforms for cancer theranosticsAdvanced biosensing and bioanalysis techniques
Pathogen‐Targeting Bimetallic Nanozymes as Ultrasonic‐Augmented ROS Generator against Multidrug Resistant Bacterial Infection | Litcius