Abstract
Major facilitator superfamily (MFS) efflux pumps have been shown to be important for bacterial cells to cope with biocides such as chlorhexidine (CHX), a widely used molecule in hospital settings. In this work, we evaluated the role of two genes, smvA and smvR, in CHX resistance in Enterobacter cloacae complex (ECC). smvA encodes an MFS pump whereas smvR, located upstream of smvA, codes for a TetR-type transcriptional repressor. To this aim, we constructed corresponding deletion mutants from the ATCC 13047 strain (CHX MIC, 2 mg/liter) as well as strains overexpressing smvA or smvR in both ATCC 13047 and three clinical isolates exhibiting elevated CHX MICs (16 to 32 mg/liter). Determination of MICs revealed that smvA played a modest role in CHX resistance, in contrast to smvR that modulated the ability of ECC to survive in the presence of CHX. In clinical isolates, the overexpression of smvR significantly reduced MICs of CHX (2 to 8 mg/liter). Sequence analyses of smvR and promoter regions pointed out substitutions in conserved regions. Moreover, transcriptional studies revealed that SmvR acted as a repressor of smvA expression even if no quantitative correlation between the level of smvA mRNA and MICs of CHX could be observed. On the other hand, overproduction of smvA was able to complement the lack of the major resistance-nodulation-cell division (RND) superfamily efflux pump AcrB and restored resistance to ethidium bromide and acriflavine. Although SmvA could expel biocides such as CHX, other actors, whose expression is under SmvR control, should play a critical role in ECC.