In Vivo Roles of BamA, BamB and BamD in the Biogenesis of BamA, a Core Protein of the beta-Barrel Assembly Machine of Escherichia coli

摘要

Assembly of the beta-barrel outer membrane proteins (OMPs) is an essential cellular process in Gram-negative bacteria and in the mitochondria and chloroplasts of eukaryotes-two organelles of bacterial origin. Central to this process is the conserved beta-barrel OMP that belongs to the Omp85 superfamily. In Escherichia coli, BamA is the core beta-barrel OMP and, together with four outer membrane lipoproteins, BamBCDE, constitutes the beta-barrel assembly machine (BAM). In this paper, we investigated the roles of BamD, an essential lipoprotein, and BamB in BamA biogenesis. Depletion of BamD caused impairment in BamA biogenesis and cessation of cell growth. These defects of BamD depletion were partly reversed by single-amino-acid substitutions mapping within the beta-barrel domain of BamA. However, in the absence of BamB, the positive effects of the beta-barrel substitutions on BamA biogenesis under BamD depletion conditions were nullified. By employing a BamA protein bearing one such substitution, F474L, it was demonstrated that the mutant BamA protein could not only assemble without BamD but also facilitate the assembly of wild-type BamA expressed in trans. Based on these data, we propose a model in which the Barn lipoproteins, which are localized to the outer membrane by the BAM-independent Lol pathway, aid in the creation of new BAM complexes by serving as outer membrane receptors and folding factors for nascent BamA molecules. The newly assembled BAM holocomplex then catalyzes the assembly of substrate OMPs and BamA. These in vivo findings are corroborated by recently published in vitro data. (C) 2014 Elsevier Ltd. All rights reserved.