Peptide-Based Efflux Pump Inhibitors of the Small Multidrug Resistance Protein from Pseudomonas aeruginosa

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Abstract

Bacteria have acquired multiple mechanisms to evade the lethal effects of current therapeutics, hindering treatment of bacterial infections, such as those caused by the pathogen Pseudomonas aeruginosa, which is responsible for nosocomial and cystic fibrosis lung infections. One resistance mechanism involves membrane-embedded multidrug efflux pumps that can effectively extrude an array of substrates, including common antibiotics, dyes, and biocides. Among these is a small multidrug resistance (SMR) efflux protein, consisting of four transmembrane (TM) helices, that functions as an antiparallel dimer. TM helices 1 to 3 (TM1 to TM3) comprise the substrate binding pocket, while TM4 contains a GG7 heptad sequence motif that mediates the SMR TM4-TM4 dimerization. In the present work, we synthesized a series of peptides containing the residues centered on the TM4-TM4 binding interface found in the P. aeruginosa SMR (PAsmr), typified by Ac-Ala-(Sar)3-LLGIGLIIAGVLV-KKK-NH2 (helix-helix interaction residues are underlined). Here, the acetylated N-terminal sarcosine (N-methyl-Gly) tag [Ac-Ala-(Sar)3] promotes membrane penetration, while the C-terminal Lys tag promotes selectivity for the negatively charged bacterial membranes. This peptide was observed to competitively disrupt PAsmr-mediated efflux, as measured by efflux inhibition of the fluorescent dye ethidium bromide, while having no effect on cell membrane integrity. Alternatively, a corresponding peptide in which the TM4 binding motif is scrambled was inactive in this assay. In addition, when Escherichia coli cells expressing PAsmr were combined with sublethal concentrations of several biocides, growth was significantly inhibited when peptide was added, notably, by up to 95% with the disinfectant benzylalkonium chloride. These results demonstrate promise for an efflux pump inhibitor to address the increasing threat of antibiotic-resistant bacteria.

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Mitchell, C. J., Stone, T. A., & Debera, C. M. (2019). Peptide-Based Efflux Pump Inhibitors of the Small Multidrug Resistance Protein from Pseudomonas aeruginosa. Antimicrobial Agents and Chemotherapy, 63(9). https://doi.org/10.1128/AAC.00730-19

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