Substrate-bound and substrate-free outward-facing structures of a multidrug ABC exporter.
Vincent ChaptalVeronica ZampieriBenjamin WisemanCédric OrelleJuliette MartinKim-Anh NguyenAlexia GobetMargot Di CesareSandrine MagnardWaqas JavedJad EidArnaud KilburgMarine PeuchmaurJulien MarcouxLuca MonticelliMichael HaumannGuy SchoehnJean-Michel JaultAhcène BoumendjelPierre FalsonPublished in: Science advances (2022)
Multidrug ABC transporters translocate drugs across membranes by a mechanism for which the molecular features of drug release are so far unknown. Here, we resolved three ATP-Mg 2+ -bound outward-facing conformations of the Bacillus subtilis (homodimeric) BmrA by x-ray crystallography and single-particle cryo-electron microscopy (EM) in detergent solution, one of them with rhodamine 6G (R6G), a substrate exported by BmrA when overexpressed in B. subtilis . Two R6G molecules bind to the drug-binding cavity at the level of the outer leaflet, between transmembrane (TM) helices 1-2 of one monomer and TM5'-6' of the other. They induce a rearrangement of TM1-2, highlighting a local flexibility that we confirmed by hydrogen/deuterium exchange and molecular dynamics simulations. In the absence of R6G, simulations show a fast postrelease occlusion of the cavity driven by hydrophobicity, while when present, R6G can move within the cavity, maintaining it open.
Keyphrases
- electron microscopy
- molecular dynamics simulations
- drug release
- bacillus subtilis
- high resolution
- drug resistant
- drug delivery
- molecular docking
- aortic valve
- mitral valve
- structural basis
- amino acid
- molecular dynamics
- minimally invasive
- fluorescent probe
- magnetic resonance
- molecularly imprinted
- transcription factor
- liquid chromatography