Quorum sensing deficient (lasR) mutants emerge at high frecuency from a Pseudomonas aeruginosa mutS strain

LUJAN, ADELA M; ALEJANDRO J. MOYANO; IGNACIO SEGURA; CARLOS E. ARGARAÑA; ANDREA M. SMANIA

Villa General Belgrano, Córdoba, Argentina

Workshop; I Argentine Workshop on Current Topics in Pseudomonas and Burkholderia research; 2007

Universidad Nacional de Rio Cuarto

In Pseudomonas aeruginosa, quorum sensing constitutes a highly complex cell-to-cellcommunication system that, along with the cognate acylhomoserine lactone signals and regulatorsLasR and RhlR, modulates the production of virulence factors and a wide range of metabolicfunctions. In a previous paper, the authors reported that mismatch repair disruption in P. aeruginosa results in the spontaneous and reproducible emergence of defined morphological colony variants after a relatively short period of cultivation in an aerated rich medium, in contrast to the non-mutator parental strain, which does not display any kind of diversification under identical incubation conditions. One of the morphotypical variants, mS2, emerges at a high frequency and displays differences in virulence traits that could be regulated by major quorum-sensing regulators. The present study shows that mutS mS2 variants had defective LasR function due to simple but different point mutations along the lasR gene sequence, indicating that LasR inactivation is the main cause of mS2 phenotypic diversification. Moreover, it was determined that a non-functional LasR would confer a selective advantage in the late stationary phase, since viability was notably higher for mS2. Interestingly, in all mS2 variants analysed, no sequence alterations were found in the gacA and rhlR genes, suggesting that the selective pressures for GacA/RhlR and LasR were not the same and differed from those in other Pseudomonas species, which, when incubated in nutrient-rich liquid stationary-phase cultures, show specific high instability in the gacA?gacS genes.