AI-2 quorum sensing affects antibiotic susceptibility in Streptococcus anginosus.

OBJECTIVES: The concern over rising antibiotic resistance necessitates exploration of alternative approaches in antimicrobial therapy. Bacterial communities use the auto-inducer 2 (AI-2) quorum sensing signal at a specific threshold level for intra- and interspecies communication in order to regulate virulence behaviour. AI-2 signal production occurs in bacteria that possess a luxS homologue. In this study, we investigate for the first time the association between AI-2 signalling and susceptibility to antibiotics. METHODS: Streptococcus anginosus wild-type and its isogenic luxS mutant SA001 were exposed to erythromycin and ampicillin. Susceptibility to erythromycin and ampicillin was determined by measuring the cell density and viability. Complementation assays were conducted by exposing the mutant to wild-type supernatant or to the AI-2 precursor molecule dihydroxy-2,3-pentanedione (DPD). RESULTS: Disruption of luxS in S. anginosus resulted in a mutant with increased susceptibility to erythromycin and ampicillin. Supernatant from S. anginosus wild-type partially restored growth of SA001 in the presence of the two antibiotics. DPD restored growth of the luxS mutant in the presence of erythromycin and ampicillin to values similar to that of S. anginosus wild-type. CONCLUSIONS: Our results indicate that luxS-based AI-2 communication is associated with antibiotic susceptibility. Targeting the AI-2 signal communication may present a novel approach in antimicrobial therapy.

LuxS-mediated signalling in Streptococcus anginosus and its role in biofilm formation.

The autoinducer-2 signal (AI-2) produced by several Gram-positive and Gram-negative bacteria mediates interspecies communication. In this study we were able to identify an orthologue of luxS, required for the synthesis of AI-2 signals, in Streptococcus anginosus. Comparative analyses revealed conserved sequences in the predicted S. anginosus LuxS. Expression of luxS was highest during early exponential growth phase. Compared to other oral streptococci, conditioned media from growth of members of the anginosus group were the most efficient in inducing bioluminescence in Vibrio harveyi, indicative of AI-2 signalling. Disruption of luxS in S. anginosus resulted in a mutant deficient in biofilm formation, whereas no effect on planktonic growth rate was observed under various growth conditions. S. anginosus is part of the human flora found in biofilms of the oral cavity, as well as of the upper respiratory, gastrointestinal and urogenital tracts. Such habitats harbour large varieties of bacterial species, among which cell-cell communication may play an important role. S. anginosus has also been associated with purulent infections and cancer in the upper digestive tract. Knowledge about the molecular mechanisms involved in S. anginosus communication is important for understanding its commensalism and its pathogenic transition.