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Multimodal silver-chitosan-acylase nanoparticles inhibit bacterial growth and biofilm formation by Gram-negative Pseudomonas aeruginosa bacterium

Guillem Ferreres, Kristina Ivanova, Juan Torrent‐Burgués, Tzanko Tzanov

2023Journal of Colloid and Interface Science36 citationsDOIOpen Access PDF

Abstract

Pseudomonas aeruginosa bacteria originate severe infections in hospitalized patients and those with chronic debilitating diseases leading to increased morbidity and mortality, longer hospitalization and huge financial burden to the healthcare system. The clinical relevance of P. aeruginosa infections is increased by the capability of this bacterium to grow in biofilms and develop multidrug resistant mechanisms that preclude conventional antibiotic treatments. Herein, we engineered novel multimodal nanocomposites that integrate in the same entity antimicrobial silver nanoparticles (NPs), the intrinsically antimicrobial, but biocompatible biopolymer chitosan, and the anti-infective quorum quenching enzyme acylase I. Acylase present in the NPs specifically degraded the signal molecules governing bacterial cell-to-cell communication and inhibited by ∼ 55 % P. aeruginosa biofilm formation, while the silver/chitosan template altered the integrity of bacterial membrane, leading to complete eradication of planktonic bacteria. The innovative combination of multiple bacteria targeting modalities resulted in 100-fold synergistic enhancement of the antimicrobial efficacy of the nanocomposite at lower and non-hazardous towards human skin cells concentrations, compared to the silver/chitosan NPs alone.

Topics & Concepts

BiofilmPseudomonas aeruginosaAntimicrobialMicrobiologyBacteriaChitosanChemistryQuorum sensingBacterial cell structureAntibioticsAcinetobacter baumanniiQuorum QuenchingGram-negative bacteriaBiologyBiochemistryEscherichia coliGeneticsGeneBacterial biofilms and quorum sensingAntimicrobial agents and applicationsNanoparticles: synthesis and applications
Multimodal silver-chitosan-acylase nanoparticles inhibit bacterial growth and biofilm formation by Gram-negative Pseudomonas aeruginosa bacterium | Litcius