Metallopolymer‐antibiotic bioconjugates on gold nanoparticles are synthesized by a "grafting‐to" approach and a bioconjugation process. These nanoparticles can be used as antibacterial agents to enhance the activity of β‐lactam antibiotics and fight against different strains of Gram‐positive and Gram‐negative bacteria.
Abstract
Bacterial infection has evolved into one of the most dangerous global health crises. Designing potent antimicrobial agents that can combat drug‐resistant bacteria is essential for treating bacterial infections. In this paper, a strategy to graft metallopolymer‐antibiotic bioconjugates on gold nanoparticles is developed as an antibacterial agent to fight against different bacterial strains. Thus, these nanoparticle conjugates combine various components in one system to display enhanced bactericidal efficacy, in which small sized nanoparticles provide high surface area for bacteria to contact, cationic metallopolymers interact with the negatively charged bacterial membranes, and the β‐lactam antibiotics' sterilzation capabilities are improved via evading intracellular enzymolysis by β‐lactamase. This nanoparticle‐based antibiotic‐metallopolymer system exhibits an excellent broad‐spectrum antibacterial effect, particularly for Gram‐negative bacteria, due to the synergistic effect of multicomponents on the interaction with bacteria.
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