Zhi-Soon Chong scite author profile

SummaryGram-negative bacteria can survive in harsh environments in part because the asymmetric outer membrane (OM) hinders the entry of toxic compounds. Lipid asymmetry is established by having phospholipids (PLs) confined to the inner leaflet of the membrane and lipopolysaccharides (LPS) to the outer leaflet. Perturbation of OM lipid asymmetry, characterized by PL accumulation in the outer leaflet, disrupts proper LPS packing and increases membrane permeability. The multi-component Mla system prevents PL accumulation in the outer leaflet of the OM via an unknown mechanism. Here, we demonstrate that in Escherichia coli, the Mla system maintains OM lipid asymmetry with the help of osmoporin OmpC. We show that the OM lipoprotein MlaA interacts specifically with OmpC and OmpF. This interaction is sufficient to localize MlaA lacking its lipid anchor to the OM. Removing OmpC, but not OmpF, causes accumulation of PLs in the outer leaflet of the OM in stationary phase, as was previously observed for MlaA. We establish that OmpC is an additional component of the Mla system; the OmpC-MlaA complex may function to remove PLs directly from the outer leaflet to maintain OM lipid asymmetry. Our work reveals a novel function for the general diffusion channel OmpC in lipid transport.

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The architecture of the OmpC–MlaA complex sheds light on the maintenance of outer membrane lipid asymmetry in Escherichia coli

Yeow

Tan

Holdbrook

et al. 2018

Journal of Biological Chemistry

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A distinctive feature of the Gram-negative bacterial cell envelope is the asymmetric outer membrane (OM), where lipopolysaccharides and phospholipids (PLs) reside in the outer and inner leaflets, respectively. This unique lipid asymmetry renders the OM impermeable to external insults, including antibiotics and bile salts. In , the complex comprising osmoporin OmpC and the OM lipoprotein MlaA is believed to maintain lipid asymmetry by removing mislocalized PLs from the outer leaflet of the OM. How this complex performs this function is unknown. Here, we defined the molecular architecture of the OmpC-MlaA complex to gain insights into its role in PL transport. Using photo-cross-linking and molecular dynamics simulations, we established that MlaA interacts extensively with OmpC and is located entirely within the lipid bilayer. In addition, MlaA forms a hydrophilic channel, likely enabling PL translocation across the OM. We further showed that flexibility in a hairpin loop adjacent to the channel is critical in modulating MlaA activity. Finally, we demonstrated that OmpC plays a functional role in maintaining OM lipid asymmetry together with MlaA. Our work offers glimpses into how the OmpC-MlaA complex transports PLs across the OM and has important implications for future antibacterial drug development.

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MCE domain proteins: conserved inner membrane lipid-binding proteins required for outer membrane homeostasis

Isom

Davies

Chong

et al. 2017

Sci Rep

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Structure of dual BON-domain protein DolP identifies phospholipid binding as a new mechanism for protein localisation

Bryant

Morris

Knowles

et al. 2020

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The Gram-negative outer-membrane envelops the bacterium and functions as a permeability barrier against antibiotics, detergents, and environmental stresses. Some virulence factors serve to maintain the integrity of the outer membrane, including DolP (formerly YraP) a protein of unresolved structure and function. Here, we reveal DolP is a lipoprotein functionally conserved amongst Gram-negative bacteria and that loss of DolP increases membrane fluidity. We present the NMR solution structure for Escherichia coli DolP, which is composed of two BON domains that form an interconnected opposing pair. The C-terminal BON domain binds anionic phospholipids through an extensive membrane:protein interface. This interaction is essential for DolP function and is required for sub-cellular localisation of the protein to the cell division site, providing evidence of subcellular localisation of these phospholipids within the outer membrane. The structure of DolP provides a new target for developing therapies that disrupt the integrity of the bacterial cell envelope.

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MCE domain proteins: conserved inner membrane lipid-binding proteins required for outer membrane homeostasis

Isom

Davies

Chong

et al. 2017

Preprint

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Bacterial proteins with MCE domains were first described as being important for Mammalian Cell Entry. More recent evidence suggests they are components of lipid ABC transporters. In Escherichia coli, the singledomain protein MlaD is known to be part of an inner membrane transporter that is important for maintenance of outer membrane lipid asymmetry. Here we describe two multi MCE domain-containing proteins in Escherichia coli, PqiB and YebT, the latter of which is an orthologue of MAM-7 that was previously reported to be an outer membrane protein. We show that all three MCE domain-containing proteins localise to the inner membrane. Bioinformatic analyses revealed that MCE domains are widely distributed across bacterial phyla but multi MCE domain-containing proteins evolved in Proteobacteria from single-domain proteins. Mutants peer-reviewed) is the author/funder. All rights reserved. No reuse allowed without permission.The copyright holder for this preprint (which was not . http://dx.doi.org/10.1101/159053 doi: bioRxiv preprint first posted online Jul. 3, 2017; 2 defective in mlaD, pqiAB and yebST were shown to have distinct but partially overlapping phenotypes, but the primary functions of PqiB and fig. S1). Other multi-MCE domain-containing proteins were detected in Proteobacteria, but at much lower frequencies than type III and IV proteins (Supplementary table S1, Supplementary fig. S1).Some MCE domains were detected in proteins from eukaryotic genomes (Supplementary fig. S2). Type I proteins were found in plant phyla Chlorophyta and Streptophyta. In Arabidopsis they are involved in the trafficking of phosphatidic acid from the outer to the inner membrane of chloroplasts 18 . A small number of MCE proteins were identified in animal genomes. Manual inspection of the DNA sequences encoding these proteins revealed that all but one could be attributed to contamination with bacterial DNA, the exception being in Trichoplax adhaerens, an animal known to have an unusually large mitochondrial genome 22,23 .Protein clustering and evolution of multi-domain proteins. To understand the evolutionary relationships between MCE proteins, protein-protein similarity networks were constructed and coloured by architecture type and phylum (Fig. 2). MCE proteins generally cluster within phyla, suggesting that little or no horizontal transmission of these genes has occurred and variants have arisen through speciation.peer-reviewed) is the author/funder. All rights reserved. No reuse allowed without permission.The (Fig. 3B). In many of these peer-reviewed) is the author/funder. All rights reserved. No reuse allowed without permission.copyright holder for this preprint (which was not . http://dx.doi.org/10.1101/159053 doi: bioRxiv preprint first posted online Jul. 3, 2017The copyright holder for this preprint (which was not . http://dx.doi.org/10.1101/159053 doi: bioRxiv preprint first posted online Jul. 3, 2017; 7 neighbourhoods, for example in Neisseria meningitidis 27 , the outer membrane component MlaA (VacJ) is found in ...

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Zhi-Soon Chong

Osmoporin OmpC forms a complex with MlaA to maintain outer membrane lipid asymmetry in Escherichia coli

The architecture of the OmpC–MlaA complex sheds light on the maintenance of outer membrane lipid asymmetry in Escherichia coli

MCE domain proteins: conserved inner membrane lipid-binding proteins required for outer membrane homeostasis

Structure of dual BON-domain protein DolP identifies phospholipid binding as a new mechanism for protein localisation

MCE domain proteins: conserved inner membrane lipid-binding proteins required for outer membrane homeostasis

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