Abstract
The iron acquisition systems in Pseudomonas aeruginosa are inducible in response to low-iron conditions and important for growth of this organism under iron limitation. OprM is the essential outer membrane subunit of the MexAB-OprM xenobiotic efflux pump. We designed and constructed a new model antimicrobial screening system targeting both the iron-uptake system and xenobiotic efflux pumps. The oprM gene was placed immediately downstream of the ferri-pyoverdine receptor gene, fpvA, in the host lacking chromosomal oprM and the expression of oprM was monitored by an antibiotic susceptibility test under iron depleted and replete conditions. The recombinant cells showed wild-type susceptibility to pump substrate antibiotics, e.g., aztreonam, under iron limitation and became supersusceptible to them under iron repletion, suggesting that expression of oprM is under control of the iron acquisition system. Upon screening of a chemical library comprising 2952 compounds using this strain, a compound—ethyl 2-(1-acetylpiperidine-4-carboxamido)-4,5,6,7-tetrahydrobenzo[b]thiophene-3-carboxylate—was found to enhance the efficacy of aztreonam under iron limitation, suggesting that the compound inhibits either the iron acquisition system or the MexAB-OprM efflux pump. This compound was subsequently found to inhibit the growth of wild-type cells in the presence of sublethal amounts of aztreonam, regardless of the presence or absence of dipyridyl, an iron-chelator. The compound was eventually identified to block the function of the MexAB-OprM efflux pump, showing the validity of this new method.
Highlights
Infections caused by multidrug resistant bacteria are a serious problem in hospitals and a major public health concern these days [1,2]
If the gene coding for the outer membrane subunit of the MexAB-OprM efflux pump, oprM, is placed immediately downstream site of the fpvA gene of the oprM-deficient cell, expression of oprM will be under control of the iron acquisition system
Expression of the iron acquisition system may be monitored as the resistance to the pump substrate antibiotics (Figure 1)
Summary
Infections caused by multidrug resistant bacteria are a serious problem in hospitals and a major public health concern these days [1,2]. The discovery of new antimicrobial agents to combat such pathogens is an urgent and crucial concern [3,4,5]. The agents that act upon essential metabolic targets inevitably select resistant mutants due to their strong selective pressure [7,8]. Alternative approaches may be needed to tackle these issues. One such approach could be to find agents which interfere with the action of bacterial virulence factors. Virulence factors are less likely to exert selective pressure on the development of resistant strains since they are virtually secondary [9,10,11]. Means to control bacterial virulence open a window to search for new types of antimicrobial agents
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