A novel mechanism for the biogenesis of outer membrane vesicles in Gram-negative bacteria
Citations Over TimeTop 1% of 2016 papers
Abstract
Bacterial outer membrane vesicles (OMVs) have important biological roles in pathogenesis and intercellular interactions, but a general mechanism of OMV formation is lacking. Here we show that the VacJ/Yrb ABC (ATP-binding cassette) transport system, a proposed phospholipid transporter, is involved in OMV formation. Deletion or repression of VacJ/Yrb increases OMV production in two distantly related Gram-negative bacteria, Haemophilus influenzae and Vibrio cholerae. Lipidome analyses demonstrate that OMVs from VacJ/Yrb-defective mutants in H. influenzae are enriched in phospholipids and certain fatty acids. Furthermore, we demonstrate that OMV production and regulation of the VacJ/Yrb ABC transport system respond to iron starvation. Our results suggest a new general mechanism of OMV biogenesis based on phospholipid accumulation in the outer leaflet of the outer membrane. This mechanism is highly conserved among Gram-negative bacteria, provides a means for regulation, can account for OMV formation under all growth conditions, and might have important pathophysiological roles in vivo.
Related Papers
- → Outer membrane β-barrel protein folding is physically controlled by periplasmic lipid head groups and BamA(2014)191 cited
- → The Essential β-Barrel Assembly Machinery Complex Components BamD and BamA Are Required for Autotransporter Biogenesis(2011)79 cited
- → BamA β16C strand and periplasmic turns are critical for outer membrane protein insertion and assembly(2017)16 cited
- → Structure and Function of the Beta-Barrel Assembly Machine and its Associated Chaperones(2014)
- → Structure and Function of the β-Barrel Assembly Machine and its Associated Chaperones(2015)