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Biofilm Microenvironment Activated Antibiotic Adjuvant for Implant‐Associated Infections by Systematic Iron Metabolism Interference

Jianing Ding, Xin Wang, Wei Liu, Cheng Ding, Jianrong Wu, Renke He, Xianlong Zhang

2024Advanced Science11 citationsDOIOpen Access PDF

Abstract

Abstract Hematoma, a risk factor of implant‐associated infections (IAIs), creates a Fe‐rich environment following implantation, which proliferates the growth of pathogenic bacteria. Fe metabolism is a major vulnerability for pathogens and is crucial for several fundamental physiological processes. Herein, a deferiprone (DFP)‐loaded layered double hydroxide (LDH)‐based nanomedicine (DFP@Ga‐LDH) that targets the Fe‐rich environments of IAIs is reported. In response to acidic changes at the infection site, DFP@Ga‐LDH systematically interferes with bacterial Fe metabolism via the substitution of Ga 3+ and Fe scavenging by DFP. DFP@Ga‐LDH effectively reverses the Fe/Ga ratio in Pseudomonas aeruginosa , causing comprehensive interference in various Fe‐associated targets, including transcription and substance metabolism. In addition to its favorable antibacterial properties, DFP@Ga‐LDH functions as a nano‐adjuvant capable of delaying the emergence of antibiotic resistance. Accordingly, DFP@Ga‐LDH is loaded with a siderophore antibiotic (cefiderocol, Cefi) to achieve the antibacterial nanodrug DFP@Ga‐LDH‐Cefi. Antimicrobial and biosafety efficacies of DFP@Ga‐LDH‐Cefi are validated using ex vivo human skin and mouse IAI models. The pivotal role of the hematoma‐created Fe‐rich environment of IAIs is highlighted, and a nanoplatform that efficiently interferes with bacterial Fe metabolism is developed. The findings of the study provide promising guidance for future research on the exploration of nano‐adjuvants as antibacterial agents.

Topics & Concepts

BiofilmAdjuvantAntibioticsMicrobiologyChemistryMedicineBacteriaBiologyInternal medicineGeneticsBone Tissue Engineering MaterialsBacterial biofilms and quorum sensingOral microbiology and periodontitis research