Pseudomonas aeruginosadetachment from surfaces via a self-made small molecule

Abstract: Pseudomonas aeruginosa is a significant threat in both healthcare and industrial biofouling. Surface attachment of P. aeruginosa is particularly problematic as surface association induces virulence and biofilm formation, which hamper later antibiotic treatments. Previous efforts have searched for biofilm dispersal agents, but there are no known factors that specifically disperse surface-attached P. aeruginosa. In this study we develop a quantitative surface-dispersal assay and use it to show that P. aeruginosa… Show more

“…However, it was not clear whether bacterial molecules might also inhibit the first steps in biofilm formation. Scheffler et al (5) therefore screened cell-free media from P. aeruginosa cultures to search for molecules that would disrupt P. aeruginosa early cell surface attachment and consequently promote cell dispersal in early-stage biofilms. To achieve this, the authors first developed a high-throughput microscopy-based adsorption assay (which they termed "DISPEL") to assess the dispersal activity of P. aeruginosa cell-free culture media harvested at different growth phases.…”

How bacteria block their own biofilms

“…However, it was not clear whether bacterial molecules might also inhibit the first steps in biofilm formation. Scheffler et al (5) therefore screened cell-free media from P. aeruginosa cultures to search for molecules that would disrupt P. aeruginosa early cell surface attachment and consequently promote cell dispersal in early-stage biofilms. To achieve this, the authors first developed a high-throughput microscopy-based adsorption assay (which they termed "DISPEL") to assess the dispersal activity of P. aeruginosa cell-free culture media harvested at different growth phases.…”

How bacteria block their own biofilms