Abstract
BackgroundThe Pseudomonas aeruginosa MexEF-OprN efflux pump confers resistance to clinically significant antibiotics. Regulation of mexEF-oprN operon expression is multifaceted with the MexT activator being one of the most prominent regulatory proteins.MethodologyWe have exploited the impaired metabolic fitness of a P. aeruginosa mutant strain lacking several efflux pump of the resistance nodulation cell division superfamily and the TolC homolog OpmH, and isolated derivatives (large colony variants) that regained fitness by incubation on nutrient-rich medium in the absence of antibiotics. Although the mexEF-oprN operon is uninducible in this mutant due to a 8-bp mexT insertion present in some P. aeruginosa PAO1 strains, the large colony variants expressed high levels of MexEF-OprN. Unlike large colony variants obtained after plating on antibiotic containing medium which expressed mexEF-oprN in a MexT-dependent fashion as evidenced by clean excision of the 8-bp insertion from mexT, mexEF-oprN expression was MexT-independent in the large colony variants obtained by plating on LB alone since the mexT gene remained inactivated. A search for possible regulators of mexEF-oprN expression using transposon mutagenesis and genomic library expression approaches yielded several candidates but proved inconclusive.SignificanceOur results show that antibiotic and metabolic stress lead to up-regulation of MexEF-OprN expression via different mechanisms and that MexEF-OprN does not only extrude antimicrobials but rather serves other important metabolic functions.
Highlights
Pseudomonas aeruginosa is a non-fermentative Gram-negative nosocomial pathogen of significant clinical relevance
In the absence of other Resistance-Nodulation-Cell Division (RND) pumps, the expression of MexEF-OprN pump can be activated in a nutrient rich-medium in absence of an antibiotic stress independent of the MexT protein
We attempted to identify factors that control the expression of MexEF-OprN pump in the absence of antibiotic substrates
Summary
Pseudomonas aeruginosa is a non-fermentative Gram-negative nosocomial pathogen of significant clinical relevance. 11 different RND pumps, capable of effluxing antibiotics/antimicrobial products, have been characterized in P. aeruginosa that include MexAB-OprM [15], MexCD-OprJ [16], MexEF-OprN [17], MexGHI-OpmD [18], MexJK-OprM/ OpmH [19], MexMN [20], MexPQ-OpmE [20], MexVW-OprM [21], MexXY-OprM [22], TriABC-OpmH [23], and MuxABCOpmB [24] Expression of these pumps is usually under tight regulatory control, molecular mechanisms that regulate the expression of a number of these pumps are not fully understood. Regulation of mexEF-oprN operon expression is multifaceted with the MexT activator being one of the most prominent regulatory proteins
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