Assembling the puzzle of antimicrobial resistance in staphylococcal biofilms
Thuy Nguyen, David McGiffin, Bin Lou, Yao Sun, Changrui Qian, Xenia Kostoulias, Wenhong Zhang, Anton Y. Peleg, Yue Qu

TL;DR
This study explores how multiple factors work together to make staphylococcal biofilms resistant to antibiotics and identifies strategies to overcome this resistance.
Contribution
The study integrates multiple mechanisms of biofilm antimicrobial resistance and quantifies their individual contributions.
Findings
Gentamicin, tobramycin, and ciprofloxacin at 1024 µg/mL effectively killed S. aureus biofilms by overcoming all four resistance mechanisms.
Ciprofloxacin at 1024 µg/mL was effective against S. epidermidis biofilms.
Low-cell metabolism was identified as the most important factor contributing to biofilm antimicrobial resistance.
Abstract
Multiple mechanisms underpinning biofilm antimicrobial resistance (AMR) have been studied individually. This study aimed to integrate these mechanisms, to understand their contributions to staphylococcal biofilm AMR, as a part of a whole, and to elucidate key hurdles hindering effective biofilm eradication by antimicrobial agents. Nine antibiotics were selected against microplate-based biofilms formed by Staphylococcus aureus ATCC 25923 and Staphylococcus epidermidis RP62A. Four mechanisms, including repressed bacterial metabolism, the barrier effect of the biofilm extracellular polymeric substances (EPS) matrix, the acidic inner-biofilm pH, and inoculum effects associated with high-cell-density biofilm growth were studied. The impact of individual mechanism on biofilm AMR was quantitated by determining the fold increase of concentration that allows antibiotics to overcome the…
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Taxonomy
TopicsBacterial biofilms and quorum sensing · Antimicrobial Resistance in Staphylococcus · Oral microbiology and periodontitis research
