Unraveling the molecular dynamics of Pseudomonas aeruginosa biofilms at the air-liquid interface.

ABSTRACT

Aim: The aim of this study was to probe the dynamics of Pseudomonas aeruginosa PA14 air-liquid interface (ALI) biofilms over time through global proteomic analysis. Materials & methods: P. aeruginosa PA14 ALI biofilm samples, collected over 48-144 h, underwent differential expression analysis to identify varying proteins at each time point. Results: A consistent set of 778 proteins was identified, with variable expression over time. Upregulated proteins were mainly linked to 'amino acid transport and metabolism'. Biofilm-related pathways, including cAMP/Vfr and QS, underwent significant changes. Flagella were more influential than pili, especially in early biofilm development. Proteins associated with virulence, transporters and iron showed differential expression throughout. Conclusion: The findings enhance our understanding of ALI biofilm development.

This study looks at how the bacteria Pseudomonas aeruginosa forms a community called a biofilm at the air­liquid interface (ALI), an important environment for bacterial growth. Biofilms at the ALI are resistant to external forces and contribute to antibiotic resistance. Over 48­144 h, we observed a noticeable increase in biofilm thickness. Our data suggested that the flagella, a sort of propeller of the bacterium, plays a crucial role, especially in the initial stages of ALI biofilm formation. Proteins associated with virulence, transporters and iron also showed their significance in ALI biofilms. These findings offer valuable insights into the protein changes and functions involved in P. aeruginosa ALI biofilms, improving our understanding of biofilm development.