Antibiotics do not induce expression of acrAB directly but via a RamA-dependent pathway.

Abstract

The aim of this study was to determine if acrAB induction in Salmonella Typhimurium relies solely on RamA or if other transcriptional activator pathways are also involved, and to better understand the kinetics of induction of both acrAB and ramA. We evaluated the expression of acrAB in S. Typhimurium in response to a variety of compounds that are known to induce the expression of one or more of the transcriptional activators, MarA, SoxS, RamA, and Rob. We utilized green fluorescent protein (GFP) transcriptional reporter fusions to investigate the changes in the expression of acrAB, ramA, marA, and soxS following exposure to sub-inhibitory concentrations of antimicrobial compounds. Of the compounds tested, 13 induce acrAB expression in S. Typhimurium via RamA, MarA, SoxS, and Rob-dependent pathways. None of the tested antibiotics induced acrAB expression, and compounds that induced acrAB expression also induced a general stress response. The results from this study show that the majority of compounds tested induced acrAB via the RamA-dependent pathway. However, none of the antibiotic substrates of the AcrB efflux pump directly increased the expression of AcrAB either directly or indirectly via the induction of one of the transcriptional activators. Using a dual GFP/RFP reporter, we investigated the kinetics of the induction of ramA and acrAB simultaneously and found that acrAB gene expression was transient compared to ramA gene expression. ramA gene expression increased with time and would remain high or decrease slowly over the course of the experiment indicating that RamA exerts a wider global effect and is not limited to efflux regulation alone.