EMD-14398
Cryo-EM structure of the A. baumannii MlaBDEF complex bound to APPNHP
EMD-14398
Single-particle3.9 Å
Deposition: 21/02/2022Map released: 05/10/2022
Last modified: 19/04/2023
Sample Organism:
Acinetobacter baumannii
Sample: MlaBDEF complex
Deposition Authors: Mann D
,
Bergeron JRC
Sample: MlaBDEF complex
Deposition Authors: Mann D
,
Bergeron JRC
Structure and lipid dynamics in the maintenance of lipid asymmetry inner membrane complex of A. baumannii.
Mann D ,
Fan J,
Somboon K,
Farrell DP ,
Muenks A,
Tzokov SB ,
DiMaio F,
Khalid S,
Miller SI ,
Bergeron JRC
(2021) Commun Biol , 4 , 817 - 817
,
Fan J,
Somboon K,
Farrell DP ,
Muenks A,
Tzokov SB ,
DiMaio F,
Khalid S,
Miller SI ,
Bergeron JRC
(2021) Commun Biol , 4 , 817 - 817
Abstract:
Multi-resistant bacteria are a major threat in modern medicine. The gram-negative coccobacillus Acinetobacter baumannii currently leads the WHO list of pathogens in critical need for new therapeutic development. The maintenance of lipid asymmetry (MLA) protein complex is one of the core machineries that transport lipids from/to the outer membrane in gram-negative bacteria. It also contributes to broad-range antibiotic resistance in several pathogens, most prominently in A. baumannii. Nonetheless, the molecular details of its role in lipid transport has remained largely elusive. Here, we report the cryo-EM maps of the core MLA complex, MlaBDEF, from the pathogen A. baumannii, in the apo-, ATP- and ADP-bound states, revealing multiple lipid binding sites in the cytosolic and periplasmic side of the complex. Molecular dynamics simulations suggest their potential trajectory across the membrane. Collectively with the recently-reported structures of the E. coli orthologue, this data also allows us to propose a molecular mechanism of lipid transport by the MLA system.
Multi-resistant bacteria are a major threat in modern medicine. The gram-negative coccobacillus Acinetobacter baumannii currently leads the WHO list of pathogens in critical need for new therapeutic development. The maintenance of lipid asymmetry (MLA) protein complex is one of the core machineries that transport lipids from/to the outer membrane in gram-negative bacteria. It also contributes to broad-range antibiotic resistance in several pathogens, most prominently in A. baumannii. Nonetheless, the molecular details of its role in lipid transport has remained largely elusive. Here, we report the cryo-EM maps of the core MLA complex, MlaBDEF, from the pathogen A. baumannii, in the apo-, ATP- and ADP-bound states, revealing multiple lipid binding sites in the cytosolic and periplasmic side of the complex. Molecular dynamics simulations suggest their potential trajectory across the membrane. Collectively with the recently-reported structures of the E. coli orthologue, this data also allows us to propose a molecular mechanism of lipid transport by the MLA system.