RT Journal Article
SR Electronic
T1 Quorum sensing integrates environmental cues, cell density and cell history to control bacterial competence
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 075762
DO 10.1101/075762
A1 Stefany Moreno-Gámez
A1 Robin A. Sorg
A1 Arnau Domenech
A1 Morten Kjos
A1 Franz J. Weissing
A1 G. Sander van Doorn
A1 Jan-Willem Veening
YR 2017
UL http://biorxiv.org/content/early/2017/07/25/075762.abstract
AB Streptococcus pneumoniae becomes competent for genetic transformation when exposed to an autoinducer peptide named CSP. This peptide was originally described as a quorum-sensing (QS) signal, enabling individual cells to regulate competence in response to population density. However, recent studies suggest that CSP may instead serve as a probe for sensing environmental cues, such as antibiotic stress or environmental diffusion. Here, we show that competence induction can be simultaneously influenced by cell density, external pH, antibiotic-induced stress and cell history. Our experimental data is explained by a mathematical model where the environment and cell history modify how cells produce or sense CSP. Taken together, model and experiments indicate that autoinducer concentration can function as an indicator of cell density across environmental conditions, while also incorporating information on environmental factors or cell history, allowing cells to integrate cues such as antibiotic stress into their QS response. This unifying perspective may apply to other debated QS systems.