Abstract
The macrolide antibiotic, azithromycin (AZM), has been reported to improve the clinical outcome of cystic fibrosis patients, many of whom are chronically-infected with Pseudomonas aeruginosa. However, the highest clinically-achievable concentrations of this drug are well-below the minimum inhibitory concentration for P. aeruginosa, raising the question of why AZM exhibits therapeutic activity. One possibility that has been raised by earlier studies is that AZM inhibits quorum sensing (QS) by P. aeruginosa. To explicitly test this hypothesis the changes brought about by AZM treatment need to be compared with those associated with specific QS mutants grown alongside in the same growth medium, but this has not been done. In this work, we used quantitative 2D-difference gel electrophoresis and 1H-NMR spectroscopy footprint analysis to examine whether a range of clinically-relevant AZM concentrations elicited proteomic and metabolomic changes in wild-type cultures that were similar to those seen in cultures of defined QS mutants. Consistent with earlier reports, over half of the AZM-induced spot changes on the 2D gels were found to affect QS-regulated proteins. However, AZM modulated very few protein spots overall (compared with QS) and collectively, these modulated proteins comprised only a small fraction (12–13%) of the global QS regulon. We conclude that AZM perturbs a sub-regulon of the QS system but does not block QS per se. Reinforcing this notion, we further show that AZM is capable of attenuating virulence factor production in another Gram-negative species that secretes copious quantities of exoenzymes (Serratia marcescens), even in the absence of a functional QS system.
Highlights
Pseudomonas aeruginosa is Gram-negative pathogen that displays virulence towards a range of hosts including insects, nematodes, plants and some mammals [1,2,3,4]
Given that in P. aeruginosa, the production of many secreted virulence factors is under the control of quorum sensing (QS), one economical hypothesis has been that sub-MIC AZM acts by inhibiting this signalling mechanism [18,19,20]
To confirm that AZM elicits similar effects in our defined growth medium (AGS) compared with earlier studies, we examined the effects of sub-inhibitory concentrations of AZM on secreted protease activity and on the transcription of two genes known to be under QS control
Summary
Pseudomonas aeruginosa is Gram-negative pathogen that displays virulence towards a range of hosts including insects, nematodes, plants and some mammals [1,2,3,4]. Given that in P. aeruginosa, the production of many secreted virulence factors is under the control of quorum sensing (QS), one economical hypothesis has been that sub-MIC AZM acts by inhibiting this signalling mechanism [18,19,20]. Consistent with this notion, sub-MIC AZM reduces the production of Nacylhomoserine lactone (AHL) QS signal molecules and decreases transcription of the synthases (lasI and rhlI) that make these molecules [18,19]. Though, Skindersoe et al have shown that structurally-unrelated antibiotics (including the β-lactam, ceftazidime and the fluoroquinolone, ciprofloxacin) strongly impinge upon QS [21] suggesting that QS might be exquisitely-sensitive to certain types of antibiotic-induced stress
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