Journal
ANTIMICROBIAL AGENTS AND CHEMOTHERAPY
Volume 61, Issue 4, Pages -Publisher
AMER SOC MICROBIOLOGY
DOI: 10.1128/AAC.02696-16
Keywords
biofilm; aggregates; extracellular matrix; antimicrobial tolerance
Categories
Funding
- Danish Research Council [DFF-1323-00177]
- King Christian X's Foundation
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Pseudomonas aeruginosa is an opportunistic pathogen that can infect the lungs of cystic fibrosis (CF) patients and persist in the form of antibiotic-tolerant aggregates in the mucus. It has recently been suggested that such aggregates are formed due to restricted bacterial motility independent of the production of extracellular matrix components, and that they do not rely on an extracellular matrix for antimicrobial tolerance. However, we show here that biofilm matrix overexpression, as displayed by various clinical isolates, significantly protects P. aeruginosa aggregates against antimicrobial treatment. Alginate-overproducing mucA mutant bacteria growing in aggregates showed highly increased antibiotic tolerance compared to wild-type bacteria in aggregates. Deletion of algD in the mucA mutant strain abrogated alginate production and reversed the antibiotic tolerance displayed by the aggregates to a level similar to that observed for aggregates formed by the wild type. The P. aeruginosa Delta wspF and Delta yfiR mutant strains both overproduce Pel and Psl exopolysaccharide, and when these bacteria grew in aggregates, they showed highly increased antibiotic tolerance compared to wild-type bacteria growing in aggregates. However, the Delta wspF and Delta yfiR mutant strains, deficient in Pel/Psl production due to additional Delta pelA Delta pslBCD deletions, formed aggregates that displayed antibiotic tolerance levels close to those of wild-type aggregates. These results suggest that biofilm matrix components, such as alginate, Pel, and Psl, do play a role in the tolerance toward antimicrobials when bacteria grow as aggregates.
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