Architectures of lipid transport systems for the bacterial outer membrane

Damian C. Ekiert; Gira Bhabha; Georgia Isom; Garrett Greenan; Sergey Ovchinnikov; Ian Henderson; Jeffery S. Cox; Ronald D. Vale

doi:10.1016/j.cell.2017.03.019

Architectures of lipid transport systems for the bacterial outer membrane

Damian C. Ekiert, Gira Bhabha, Georgia Isom, Garrett Greenan, Sergey Ovchinnikov, Ian Henderson, Jeffery S. Cox, Ronald D. Vale

Microbiology and Infection

Research output: Contribution to journal › Article › peer-review

87 Citations (Scopus)

Abstract

How phospholipids are trafficked between the bacterial inner and outer membranes through the hydrophilic space of the periplasm is not known. We report that members of the mammalian cell entry (MCE) protein family form hexameric assemblies with a central channel capable of mediating lipid transport. The E. coli MCE protein, MlaD, forms a ring associated with an ABC transporter complex in the inner membrane. A soluble lipid-binding protein, MlaC, ferries lipids between MlaD and an outer membrane protein complex. In contrast, EM structures of two other E. coli MCE proteins show that YebT forms an elongated tube consisting of seven stacked MCE rings, and PqiB adopts a syringe-like architecture. Both YebT and PqiB create channels of sufficient length to span the periplasmic space. This work reveals diverse architectures of highly conserved protein-based channels implicated in the transport of lipids between the membranes of bacteria and some eukaryotic organelles.

Original language	English
Pages (from-to)	273-285.e17
Journal	Cell
Volume	169
Issue number	2
DOIs	https://doi.org/10.1016/j.cell.2017.03.019
Publication status	Published - 6 Apr 2017

Keywords

Cell Membrane/chemistry
Crystallography, X-Ray
Escherichia coli/chemistry
Escherichia coli Proteins/chemistry
Membrane Proteins/chemistry
Microscopy, Electron
Models, Molecular
Multiprotein Complexes/chemistry

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title = "Architectures of lipid transport systems for the bacterial outer membrane",

abstract = "How phospholipids are trafficked between the bacterial inner and outer membranes through the hydrophilic space of the periplasm is not known. We report that members of the mammalian cell entry (MCE) protein family form hexameric assemblies with a central channel capable of mediating lipid transport. The E. coli MCE protein, MlaD, forms a ring associated with an ABC transporter complex in the inner membrane. A soluble lipid-binding protein, MlaC, ferries lipids between MlaD and an outer membrane protein complex. In contrast, EM structures of two other E. coli MCE proteins show that YebT forms an elongated tube consisting of seven stacked MCE rings, and PqiB adopts a syringe-like architecture. Both YebT and PqiB create channels of sufficient length to span the periplasmic space. This work reveals diverse architectures of highly conserved protein-based channels implicated in the transport of lipids between the membranes of bacteria and some eukaryotic organelles.",

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AU - Ekiert, Damian C.

AU - Bhabha, Gira

AU - Isom, Georgia

AU - Greenan, Garrett

AU - Ovchinnikov, Sergey

AU - Henderson, Ian

AU - Cox, Jeffery S.

AU - Vale, Ronald D.

PY - 2017/4/6

Y1 - 2017/4/6

N2 - How phospholipids are trafficked between the bacterial inner and outer membranes through the hydrophilic space of the periplasm is not known. We report that members of the mammalian cell entry (MCE) protein family form hexameric assemblies with a central channel capable of mediating lipid transport. The E. coli MCE protein, MlaD, forms a ring associated with an ABC transporter complex in the inner membrane. A soluble lipid-binding protein, MlaC, ferries lipids between MlaD and an outer membrane protein complex. In contrast, EM structures of two other E. coli MCE proteins show that YebT forms an elongated tube consisting of seven stacked MCE rings, and PqiB adopts a syringe-like architecture. Both YebT and PqiB create channels of sufficient length to span the periplasmic space. This work reveals diverse architectures of highly conserved protein-based channels implicated in the transport of lipids between the membranes of bacteria and some eukaryotic organelles.

AB - How phospholipids are trafficked between the bacterial inner and outer membranes through the hydrophilic space of the periplasm is not known. We report that members of the mammalian cell entry (MCE) protein family form hexameric assemblies with a central channel capable of mediating lipid transport. The E. coli MCE protein, MlaD, forms a ring associated with an ABC transporter complex in the inner membrane. A soluble lipid-binding protein, MlaC, ferries lipids between MlaD and an outer membrane protein complex. In contrast, EM structures of two other E. coli MCE proteins show that YebT forms an elongated tube consisting of seven stacked MCE rings, and PqiB adopts a syringe-like architecture. Both YebT and PqiB create channels of sufficient length to span the periplasmic space. This work reveals diverse architectures of highly conserved protein-based channels implicated in the transport of lipids between the membranes of bacteria and some eukaryotic organelles.

KW - Cell Membrane/chemistry

KW - Crystallography, X-Ray

KW - Escherichia coli/chemistry

KW - Escherichia coli Proteins/chemistry

KW - Membrane Proteins/chemistry

KW - Microscopy, Electron

KW - Models, Molecular

KW - Multiprotein Complexes/chemistry

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DO - 10.1016/j.cell.2017.03.019

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SN - 0092-8674

VL - 169

SP - 273-285.e17

JO - Cell

JF - Cell

IS - 2

ER -

Architectures of lipid transport systems for the bacterial outer membrane

Abstract

Keywords

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