The membrane-proximal domain of the periplasmic adapter protein plays a role in vetting substrates utilising channels 1 and 2 of RND efflux transporters

Ilyas Alav, Vassiliy N. Bavro, Jessica M. A. Blair

Research output: Working paper/PreprintPreprint

Abstract

Active efflux by resistance-nodulation-division (RND) efflux pumps is a major contributor to antibiotic resistance in clinically relevant Gram-negative bacteria. Tripartite RND pumps, such as AcrAB-TolC of Salmonella enterica serovar Typhimurium, comprise of an inner membrane RND transporter, a periplasmic adaptor protein (PAP) and an outer membrane factor. Previously, we elucidated binding sites within the PAP AcrA (termed binding boxes) that were important for AcrB-transporter recognition. Here, we have refined the binding box model by identifying the most critical residues involved in PAP-RND binding and show that the corresponding RND-binding residues in the closely related PAP AcrE are also important for AcrB interactions. In addition, our analysis identified a membrane-proximal domain (MPD)-residue in AcrA (K366), that when mutated, differentially affects transport of substrates utilising different AcrB efflux-channels, namely channels 1 and 2, supporting a potential role for the PAP in sensing the substrate-occupied state of the proximal binding pocket (PBP) of the transporter and substrate vetting. Our model predicts that there is a close interplay between the MPD of the PAP and the RND transporter in the productive export of substrates utilising the PBP.

Importance: Antibiotic resistance greatly threatens our ability to treat infectious diseases. In Gram-negative bacteria, overexpression of tripartite efflux pumps, such as AcrAB-TolC, contributes to multidrug resistance because they export many different classes of antibiotics. The AcrAB-TolC pump is made up of three components: the periplasmic adaptor protein (PAP) AcrA, the RND-transporter AcrB, and the outer-membrane factor TolC. Here, we identified critical residues of AcrA that are important for its function with AcrB in Salmonella enterica serovar Typhimurium. Also, we show that AcrA shares these critical residues with AcrE, a closely related PAP, explaining their interoperability with AcrB. Importantly, we identified a residue in the membrane-proximal domain of AcrA that when mutated affected how different substrates access AcrB and impacted downstream efflux via TolC channel. Understanding the role that PAPs play in the assembly and function of tripartite RND pumps can guide novel ways to inhibit their function to combat antibiotic resistance.
Original languageEnglish
PublisherbioRxiv
DOIs
Publication statusPublished - 5 Oct 2021

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