Exploring functional interplay amongst Escherichia coli efflux pumps

Bacterial efflux pumps exhibit functional interplay that can translate to additive or multiplicative effects on resistance to antimi-crobial compounds. In diderm bacteria, two different efflux pump structural types - single-component inner membrane efflux pumps and cell envelope-spanning multicomponent systems - cooperatively export antimicrobials with cytoplasmic targets from the cell. Harnessing our recently developed efflux platform, which is built upon an extensively efflux-deficient strain of Escherichia coli, here we explore interplay amongst a panel of diverse E. coli efflux pumps. Specifically, we assessed the effect of simultaneously expressing two efflux pump-encoding genes on drug resistance, including single-component inner mem-brane efflux pumps (MdfA, MdtK and EmrE), tripartite complexes (AcrAB, AcrAD, MdtEF and AcrEF), and the acquired TetA(C) tetracycline resistance pump. Overall, the expression of two efflux pump-encoding genes from the same structural type did not enhance resistance levels regardless of the antimicrobial compound or efflux pump under investigation. In contrast, a combination of the tripartite efflux systems with single-component pumps sharing common substrates provided multiplicative increases to antimicrobial resistance levels. In some instances, resistance was increased beyond the product of resistance pro-vided by the two pumps individually. In summary, the developed efflux platform enables the isolation of efflux pump function, facilitating the identification of interactions between efflux pumps.