From Quorum Sensing to Positional Sensing

With Quorum Sensing (QS) bacteria adapt their physiology and metabolism when they reach a certain density and activate genes relevant for their nutrient metabolism, survival and virulence. Genes controlled by QS have relevance for the pathogenic behavior of bacteria including adherence, secretion, toxin production, immune subversion, biofilm formation and resistance to both antimicrobial and biological/chemical stressors. Most studies assess QS by growing bacteria to various densities in liquid culture. Here, we report that when bacteria are grown on agar plates at various densities, in addition to QS, positional sensing (PS) comes into play. Genes controlled by PS can be studied by cloning their promoter in front of an autonomous bioluminescent cassette (luxCDABE) and measuring their time‐ and position‐dependent expression in biofilms by using an in vivo imaging system (IVIS). The Pseudomonas putida XylR/XylS intergenic region controlling genes relevant for the metabolism and degradation of xylene and related organic molecules was cloned in front of the autonomous luciferase cassette from Photorhabdus luminescence , with the sigma 54 controlled Ps1 promoter regulating the a luxCDABE genes and the Pr promoter regulating the XylR gene. Interestingly, when E. coli carrying this construct were grown to various density on agar plates, bioluminescence was not only expressed in a density‐ and time‐dependent, but also position‐dependent manner. Such positional cues may be mediated by signaling molecules in response to cell density, growth stage, and nutrient availability. Overexpression of the sigma factor 54 (NtrA) from Pseudomonas putida modified the density‐ and time‐dependent response suggesting a regulatory role in QS and PS. The use of bioluminescence in QS and PS promises to reveal important regulatory circuits and communication systems relevant for bacterial normal physiology, pathogenicity and virulence.