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Journal ArticleOpen Access

Neutrophil Extracellular Traps‐Inspired Bismuth‐Based Polypeptide Nanonets for Synergetic Treatment of Bacterial Infections

Author Affiliations
State Key Laboratory of Digital Medical Engineering, Southeast University, North China Electric Power University, Ben-Gurion University of the Negev
Published InAdvanced Healthcare Materials
Year2024
Citations8

Abstract

Excessive use of antibiotics and the formation of bacterial biofilms can lead to persistent infections caused by drug-resistant bacteria, rendering ineffective immune responses and even life-threatening. There is an urgent need to explore synergistic antibacterial therapies across all stages of infection. Drawing inspiration from the antibacterial properties of neutrophil extracellular traps (NETs) and integrating the bacterial biofilm dispersal mechanism involving boronic acid-catechol interaction, the multifunctional bismuth-based polypeptide nanonets (PLBA-Bi-Fe-TA) are developed. These nanonets are designed to capture bacteria through a coordination complex involving cationic polypeptides (PLBA) with boronic acid-functionalized side chains, alongside metal ions (bismuth (Bi) and iron (Fe)), and tannic acid (TA). Leveraging the nanoconfinement-enhanced high-contact network-driven multiple efficiency, PLBA-Bi-Fe-TA demonstrates the excellent ability to swiftly capture bacteria and…
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