Ag NCs as a potent antibiofilm agent against pathogenic Pseudomonas aeruginosa and Acinetobacter baumannii and drug-resistant Bacillus subtilis by affecting chemotaxis and flagellar assembly pathway genes.

Abstract

Biofilm infections are highly resistant to commercial antibiotics. Therefore, developing a potent agent against such drug-resistant bacterial infections is highly desirable. Here, we synthesized positively charged silver nanoclusters (Ag NCs) with a diameter of <2 nm, which were found to be very effective antibacterial and antibiofilm agents against tetracycline-resistant Bacillus subtilis and most importantly multidrug-resistant pathogenic strains of Pseudomonas aeruginosa and Acinetobacter baumannii. Ag NCs were able to both prevent and eradicate the biofilm formation very effectively. The antibiofilm activity can be significantly increased with α-amylase and/or DNase which degrade the structural components of biofilms. The antibiofilm activity of antibiotics gets considerably lowered due to poor penetration and the acidic microenvironment of biofilms. However, the potency of antibiotics gets significantly increased when applied with Ag NCs. Finally, RNA seq-based analysis has demonstrated that the biofilm degradation was likely due to the regulation of bacterial chemotaxis and flagellar assembly pathway genes by Ag NCs.