Structure and assembly of the MmpL5/MmpS5 efflux transporter from Mycobacterium tuberculosis

Structure and assembly of the MmpL5/MmpS5 efflux transporter from Mycobacterium tuberculosis

Abstract The MmpL5/MmpS5 efflux system in Mycobacterium tuberculosis plays crucial roles in extruding therapeutic drugs (e.g., bedaquiline), and exporting siderophores (i.e., (carboxy)mycobactins). However, the molecular basis underlying these processes remains unknown due to the lack of structural...

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Main Authors: Zhiqi Xiong, Xiaolin Yang, Shule Wang, Caitlan J. Smart, Hazel M. Sisson, Zhenli Lin, Tianyu Hu, Yuting Ran, Chuyao Xu, Xiuna Yang, Yao Zhao, William J. Jowsey, Gregory M. Cook, Matthew B. McNeil, Luke W. Guddat, Zihe Rao, Bing Zhang
Format: Article
Language:English
Published: Nature Portfolio 2025-05-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-025-60365-5
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Summary:Abstract The MmpL5/MmpS5 efflux system in Mycobacterium tuberculosis plays crucial roles in extruding therapeutic drugs (e.g., bedaquiline), and exporting siderophores (i.e., (carboxy)mycobactins). However, the molecular basis underlying these processes remains unknown due to the lack of structural information. Here, we report the cryo-electron microscopy structures of Mycobacterium tuberculosis MmpL5/MmpS5 at resolutions ranging from 2.64 to 3.31 Å, revealing it to be a trimer. The core of this complex is formed by three MmpL5 subunits assembled in a unique shoulder-to-shoulder ring-like configuration, with each MmpS5 subunit positioned between the two adjacent MmpL5 subunits. A remarkable feature of this system is the extracellular stalk, which spans approximately 130 Å in length and is composed of three intertwined anti-parallel coiled-coil portions of MmpL5. The stalk secures the tight association of the three MmpL5 subunits and exhibits intrinsic structural flexibility. Additionally, an unexpected MmpL5 binder, AcpM, a mycobacterial acyl carrier protein, has also been identified. Collectively, the study provides insights into the biological assembly and molecular function of MmpL5/MmpS5, which will facilitate the discovery of innovative inhibitors for this system.
ISSN:2041-1723

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