Project description:The outer membrane (OM) is a formidable barrier that protects Gram-negative bacteria against environmental threats. The correct folding and insertion of outer membrane proteins (OMPs) into the OM requires the essential OM-embedded β-barrel assembly machinery (BAM), a heptameric protein complex in E. coli. OMPs are delivered to BAM by the periplasmic chaperone SurA. However, how the activity of SurA and BAM are coordinated to ensure successful OMP delivery to BAM for folding into the OM remained unclear. We have trapped SurA in the act of OMP delivery to BAM and, via cryoEM, solved the structures of this assembly. By mutating key interaction sites we validate this interaction and use proteomics to determine how this perturbs the proteome of E. coli.

Project description:The outer membrane (OM) of Gram-negative bacteria efficiently protects from harmful environmental stresses such as antibiotics, disinfectants or dryness. Main constituents of the OM are integral OM β-barrel proteins (OMPs). In Gram-negative bacteria such as Escherichia coli (Ec), Yersinia enterocolitica (Ye) and Pseudomonas aeruginosa (Pa), the insertion of OMPs depends on a sophisticated biogenesis pathway. This comprises the SecYEG translocon, which enables inner membrane (IM) passage, the chaperones SurA, Skp and DegP, which facilitate the passage of β-barrel OMPs through the periplasm, and the β-barrel assembly machinery (BAM) which facilitates insertion into the OM. In Ec, Ye and Pa the deletion of SurA is particularly detrimental and leads to a loss of OM integrity, sensitization to antibiotics, and hypovirulence. In search of targets that could be exploited to develop compounds that interfere with OM integrity in Acinetobacter baumannii (Ab), we employed the multidrug-resistant strain AB5075 to generate single gene knockout strains lacking individual periplasmic chaperones. In contrast to Ec, Ye and Pa, AB5075 tolerates the lack of SurA, Skp or DegP with only weak mutant phenotypes. While the double knockout strains surAskp and surAdegP are conditionally lethal in Ec, all double deletions were well tolerated by AB5075. Strikingly, even a triple knockout strain of AB5075, lacking surA, skp and degP, was viable. Our findings underline the extreme adaptibility of Ab and suggest the existence of mechanisms bypassing or acting redundantly to the known OMP biogenesis pathway comprising SurA, Skp and DegP.

Project description:Pseudomonas aeruginosa (Pa) is one of the main causative agents of nosocomial infections and the spread of multidrug-resistant strains is rising. The outer membrane composition of Pa restricts antibiotic entry and determines virulence. For efficient outer membrane protein biogenesis, the BAM complex and chaperones like Skp and SurA are crucial. Deletion mutants of bamB, bamC and the skp homolog hlpA as well as a conditional mutant of surA were investigated. The most profound effects were associated with a lack of SurA, characterized by increased membrane permeability, enhanced sensitivity to antibiotic treatment and attenuation of virulence in a Galleria mellonella infection model. Strikingly, the conditional deletion of surA in a multidrug-resistant bloodstream isolate re-sensitized the strain to antibiotic treatment. Mass spectrometry revealed striking alterations in the outer membrane composition. Thus, SurA of Pa is important for the insertion of many porins, type V secretion systems, TonB-dependent receptors, proteins involved in LPS transport and BAM complex components. Therefore, SurA of Pa serves as a promising target for developing a drug that shows antiinfective activity and sensitizes multidrug-resistant strains to antibiotics.

Project description:The outer membrane (OM) of Gram-negative bacteria confers innate resistance to toxins and antibiotics. Integral -barrel outer membrane proteins (OMPs) are assembled into the OM by the beta-barrel assembly machine (BAM), which is composed of one OMP, BamA, and four lipoproteins, BamBCDE. BamBCE can be removed individually with only minor effects on barrier function. However, depletion of BamA or BamD, the only BAM components conserved in all diderm bacteria, causes a global defect in OMP assembly and results in cell death. We have identified a gain-of-function mutation, bamAE470K, that bypasses the requirement for BamD. Although bamD::kan bamAE470K cells exhibit growth defects, they assemble OMPs with surprising robustness. Our results demonstrate that the reactions required for beta-barrel folding and membrane integration are catalyzed solely by BamA.

Project description:Decreased salivary flow rates and/or changes in protein composition reported after autologous hematopoietic stem cell transplantation (ASCT) reduces the protective function of saliva. This might be associated with the development of oral mucositis (OM), an inflammation of the oral mucosa as a result of chemotherapy before ASCT which affects patients? quality of life and risk factor for systemic infections. In this study, a TMT-labelled proteomics experiment, a label-free quantification (LFQ) proteomics experiment and a DIA-MS proteomics experiment were used to identify differences in the salivary proteome between patients with ulcerative OM (uOM; WHO score ? 2) and those without (nOM). For the TMT-labelled experiment, saliva samples of 5 uOM and 5 nOM were pooled at different time points: baseline, 1, 2, and 3 weeks after ASCT and 3 months after ASCT. A different salivary proteome was suggested by a distinct clustering of the OM pools at baseline, week 2 and week 3 after ASCT.

Project description:Decreased salivary flow rates and/or changes in protein composition reported after autologous hematopoietic stem cell transplantation (ASCT) reduces the protective function of saliva. This might be associated with the development of oral mucositis (OM), an inflammation of the oral mucosa as a result of chemotherapy before ASCT which affects patients? quality of life and risk factor for systemic infections. In this study, a TMT-labelled proteomics experiment, a label-free quantification (LFQ) proteomics experiment and a DIA-MS proteomics experiment were used to identify differences in the salivary proteome between patients with ulcerative OM (uOM; WHO score ? 2) and those without (nOM). For the TMT-labelled experiment, saliva samples of 5 uOM and 5 nOM were pooled at different time points: baseline, 1, 2, and 3 weeks after ASCT and 3 months after ASCT. A different salivary proteome was suggested by a distinct clustering of the OM pools at baseline, week 2 and week 3 after ASCT.

Project description:Vascular calcification is common pathology various forms of which presented in the half of humans. Calcific aortic valve disease (CAVD) is one of the most dangerous forms of vascular calcification. Despite high mortality there is no target therapy against CAVD. Thus, we tested crenigacestat (LY3039478), inhibitor of Notch-signaling, and shRNA against RBPJk for inhibition of osteogenic differentiation of velve intersticial cells (VICs) in vitro. Both of them effectivelly enhibited osteogenic differentiation and we performed proteomics analysis do describe molecular mechanisms of their effect. Presented dataset contain results of shotgun proteomics analysis with ion mobility in TimsToF Pro instrument (in DDA PASEF mode) of VICs in classic osteogenic medium (OM) and OM supplemented with crenigacestat, DMSO or shCSL.

Project description:Decreased salivary flow rates and/or changes in protein composition reported after autologous hematopoietic stem cell transplantation (ASCT) reduces the protective function of saliva. This might be associated with the development of oral mucositis (OM), an inflammation of the oral mucosa as a result of chemotherapy before ASCT which affects patients, quality of life and risk factor for systemic infections. In this study, a TMT-labelled proteomics experiment, a label-free quantification (LFQ) proteomics experiment and a DIA-MS proteomics experiment were used to identify differences in the salivary proteome between patients with ulcerative OM (uOM; WHO score 2) and those without (nOM).

Project description:We present XL-MS data of the BAM:SurA complex to define the interaction sites for SurA on BAM

Project description:We present HDX-MS data of the BAM:SurA complex to define the interaction sites for SurA on BAM and vice versa.