Characterization of Distinct Biofilm Cell Subpopulations and Implications in Quorum Sensing and Antibiotic Resistance
Taylor A. Dodson, Eric A. Carlson, Nathan C. Wamer, Chase N. Morse, Jennifer Gadient, Erin G. Prestwich
Abstract
Pseudomonas aeruginosa biofilms can cause chronic infections in burn wounds, grow on medical equipment, and proliferate in the lungs of people with cystic fibrosis. These inherently antibiotic tolerant biofilms are difficult to eradicate largely due to the complexity of the biofilm environment. Developing more effective biofilm treatments is reliant upon understanding biofilm heterogeneity. We identified and characterized three separate cell subpopulations found in P. aeruginosa PA14 biofilms. The distinct morphologies, phenotypes, and biochemistries of each of these cell subpopulations indicate that they contribute differently to the overall biofilm environment. These findings demonstrate that bacterial cells of the same species exhibit diversity that implies distinct roles in biofilm initiation, maturation, and maintenance.