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W2752426836 abstract "Multidrug efflux protein complexes such as AcrAB-TolC from Escherichia coli are paramount in multidrug resistance in Gram-negative bacteria and are also implicated in other processes such as virulence and biofilm formation. Hence efflux pump inhibition, as a means to reverse antimicrobial resistance in clinically relevant pathogens, has gained increased momentum over the past two decades. Significant advances in the structural and functional analysis of AcrB have informed the selection of efflux pump inhibitors (EPIs). However, an accurate method to determine the kinetics of efflux pump inhibition was lacking. In this study we standardised and optimised surface plasmon resonance (SPR) to probe the binding kinetics of substrates and inhibitors to AcrB. The SPR method was also combined with a fluorescence drug binding method by which affinity of two fluorescent AcrB substrates were determined using the same conditions and controls as for SPR. Comparison of the results from the fluorescent assay to those of the SPR assay showed excellent correlation and provided validation for the methods and conditions used for SPR. The kinetic parameters of substrate (doxorubicin, novobiocin and minocycline) binding to AcrB were subsequently determined. Lastly, the kinetics of inhibition of AcrB were probed for two established inhibitors (phenylalanine arginyl β-naphthylamide and 1-1-naphthylmethyl-piperazine) and three novel EPIs: 4-isobutoxy-2-naphthamide (A2), 4-isopentyloxy-2-naphthamide (A3) and 4-benzyloxy-2-naphthamide (A9) have also been probed. The kinetic data obtained could be correlated with inhibitor efficacy and mechanism of action. This study is the first step in the quantitative analysis of the kinetics of inhibition of the clinically important RND-class of multidrug efflux pumps and will allow the design of improved and more potent inhibitors of drug efflux pumps. This article is part of a Special Issue entitled: Beyond the Structure-Function Horizon of Membrane Proteins edited by Ute Hellmich, Rupak Doshi and Benjamin McIlwain." @default.
W2752426836 created "2017-09-15" @default.
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W2752426836 date "2018-04-01" @default.
W2752426836 modified "2023-09-23" @default.
W2752426836 title "Kinetic analysis of the inhibition of the drug efflux protein AcrB using surface plasmon resonance" @default.
W2752426836 cites W1512490310 @default.
W2752426836 cites W154589459 @default.
W2752426836 cites W1665675542 @default.
W2752426836 cites W1785018154 @default.
W2752426836 cites W1845106204 @default.
W2752426836 cites W1968140197 @default.
W2752426836 cites W1968759341 @default.
W2752426836 cites W1979482674 @default.
W2752426836 cites W1981146802 @default.
W2752426836 cites W1985400607 @default.
W2752426836 cites W1988149100 @default.
W2752426836 cites W1999979510 @default.
W2752426836 cites W2009089119 @default.
W2752426836 cites W2013714352 @default.
W2752426836 cites W2034588929 @default.
W2752426836 cites W2041308144 @default.
W2752426836 cites W2048543277 @default.
W2752426836 cites W2049862828 @default.
W2752426836 cites W2054248955 @default.
W2752426836 cites W2056659809 @default.
W2752426836 cites W2057418340 @default.
W2752426836 cites W2071083537 @default.
W2752426836 cites W2077534797 @default.
W2752426836 cites W2079111596 @default.
W2752426836 cites W2079530723 @default.
W2752426836 cites W2086239887 @default.
W2752426836 cites W2086941118 @default.
W2752426836 cites W2090642569 @default.
W2752426836 cites W2094602223 @default.
W2752426836 cites W2112047199 @default.
W2752426836 cites W2112903691 @default.
W2752426836 cites W2118528768 @default.
W2752426836 cites W2132067013 @default.
W2752426836 cites W2132501554 @default.
W2752426836 cites W2135113667 @default.
W2752426836 cites W2142400495 @default.
W2752426836 cites W2150093310 @default.
W2752426836 cites W2152048140 @default.
W2752426836 cites W2159913597 @default.
W2752426836 cites W2163282166 @default.
W2752426836 cites W2167134843 @default.
W2752426836 cites W2267817589 @default.
W2752426836 cites W2275283872 @default.
W2752426836 cites W2278849149 @default.
W2752426836 cites W2292216442 @default.
W2752426836 cites W2298100294 @default.
W2752426836 cites W2313292243 @default.
W2752426836 cites W2317172476 @default.
W2752426836 cites W2357461525 @default.
W2752426836 cites W2416405911 @default.
W2752426836 cites W2439619736 @default.
W2752426836 cites W2536223390 @default.
W2752426836 cites W2537145845 @default.
W2752426836 cites W2537310711 @default.
W2752426836 cites W2578759600 @default.
W2752426836 cites W2589262588 @default.
W2752426836 cites W2591669406 @default.
W2752426836 cites W2591832281 @default.
W2752426836 cites W2592013065 @default.
W2752426836 cites W2592810481 @default.
W2752426836 cites W2592874021 @default.
W2752426836 cites W2594737520 @default.
W2752426836 cites W2597266501 @default.
W2752426836 cites W2743848994 @default.
W2752426836 doi "https://doi.org/10.1016/j.bbamem.2017.08.024" @default.
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