Abstract
Bacterial resistance to biocides used as antiseptics, dyes, and disinfectants is a growing concern in food preparation, agricultural, consumer manufacturing, and health care industries, particularly among Gram-negative Enterobacteriaceae, some of the most common community and healthcare-acquired bacterial pathogens. Biocide resistance is frequently associated with antimicrobial cross-resistance leading to reduced activity and efficacy of both antimicrobials and antiseptics. Multidrug resistant efflux pumps represent an important biocide resistance mechanism in Enterobacteriaceae. An assortment of structurally diverse efflux pumps frequently co-exist in these species and confer both unique and overlapping biocide and antimicrobial selectivity. TolC-dependent multicomponent systems that span both the plasma and outer membranes have been shown to confer clinically significant resistance to most antimicrobials including many biocides, however, a growing number of single component TolC-independent multidrug resistant efflux pumps are specifically associated with biocide resistance: small multidrug resistance (SMR), major facilitator superfamily (MFS), multidrug and toxin extruder (MATE), cation diffusion facilitator (CDF), and proteobacterial antimicrobial compound efflux (PACE) families. These efflux systems are a growing concern as they are rapidly spread between members of Enterobacteriaceae on conjugative plasmids and mobile genetic elements, emphasizing their importance to antimicrobial resistance. In this review, we will summarize the known biocide substrates of these efflux pumps, compare their structural relatedness, Enterobacteriaceae distribution, and significance. Knowledge gaps will be highlighted in an effort to unravel the role that these apparent “lone wolves” of the efflux-mediated resistome may offer.
Highlights
Biocides describe a chemically diverse range of antimicrobial compounds used as antiseptics, disinfectants, and preservatives
TolC-dependent multicomponent systems that span both the plasma and outer membranes have been shown to confer clinically significant resistance to most antimicrobials including many biocides, a growing number of single component TolC-independent multidrug resistant efflux pumps are associated with biocide resistance: small multidrug resistance (SMR), major facilitator superfamily (MFS), multidrug and toxin extruder (MATE), cation diffusion facilitator (CDF), and proteobacterial antimicrobial compound efflux (PACE) families
The aim of this review is to provide an overview of biocides targeted by single component efflux systems, by comparing the biocide and antimicrobial selectivity of characterized members of Enterobacteriaceae, highlight the shared and unique structural features of these pumps, and summarize the significance of their individual activities on resistance and virulence
Summary
Biocides describe a chemically diverse range of antimicrobial compounds used as antiseptics, disinfectants, and preservatives. In an effort to eradicate potentially infectious bacteria from food preparation, healthcare, and veterinary facilities, biocides such as benzalkonium, chlorhexidine, and triclosan, are commonly used to disinfect exposed surfaces (Gebel et al 2013), equipment/tubing (Otter et al 2015), skin, sutures, and wounds (Maillard 2005; Atiyeh et al 2009). Many biocide molecules insert between phospholipid headgroups and displace divalent cations, destabilizing the membrane and reducing osmoregulation (Gilbert and Moore 2005). In contrast to therapeutic antibiotics, biocides have far fewer usage regulations (Levy 2002; Maillard 2005), and are common additives in a wide range of products beyond the healthcare/veterinary setting including: cleansers used in meat/dairy facilities, C.
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