Hemin-Binding Surface Protein fromBartonella quintana

ABSTRACT Bartonella quintana, the agent of trench fever and a cause of endocarditis and bacillary angiomatosis in humans, has the highest reported in vitro hemin requirement for any bacterium. We determined that eight membrane-associated proteins from B. quintana bind hemin and that a ∼25-kDa protein (HbpA) was the dominant hemin-binding protein. Like many outer membrane proteins, HbpA partitions to the detergent phase of a Triton X-114 extract of the cell and is heat modifiable, displaying an apparent molecular mass shift from approximately 25 to 30 kDa when solubilized at 100°C. Immunoblots of purified outer and inner membranes and immunoelectron microscopy with whole cells show that HbpA is strictly located in the outer membrane and surface exposed, respectively. The N-terminal sequence of mature HbpA was determined and used to clone the HbpA-encoding gene (hbpA) from a lambda genomic library. The hbpA gene is 816 bp in length, encoding a predicted immature protein of approximately 29.3 kDa and a mature protein of 27.1 kDa. A Fur box homolog with 53% identity to the Escherichia coli Fur consensus is located upstream of hbpA and may be involved in regulating expression. BLAST searches indicate that the closest homologs to HbpA include the Bartonella henselae phage-associated membrane protein, Pap31 (58.4% identity), and the OMP31 porin from Brucella melitensis(31.7% identity). High-stringency Southern blots indicate that all five pathogenic Bartonella spp. possess hbpAhomologs. Recombinant HbpA can bind hemin in vitro; however, it does not confer a hemin-binding phenotype upon E. coli. IntactB. quintana treated with purified anti-HbpA Fab fragments show a significant (P < 0.004) dose-dependent decrease in hemin binding relative to controls, suggesting that HbpA plays an active role in hemin acquisition and therefore pathogenesis. HbpA is the first potential virulence determinant characterized fromB. quintana.

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Five-Member Gene Family of Bartonella quintana

Infection and Immunity ◽

10.1128/iai.71.2.814-821.2003 ◽

2003 ◽

Vol 71 (2) ◽

pp. 814-821 ◽

Cited By ~ 40

Author(s):

Michael F. Minnick ◽

Kate N. Sappington ◽

Laura S. Smitherman ◽

Siv G. E. Andersson ◽

Olof Karlberg ◽

...

Keyword(s):

Tandem Repeats ◽

Bartonella Henselae ◽

Family Members ◽

Surface Protein ◽

Etiologic Agent ◽

The Other ◽

Rt Pcr ◽

Transcription Analysis ◽

Bartonella Quintana

ABSTRACT Bartonella quintana, the agent of trench fever and an etiologic agent of bacillary angiomatosis, has an extraordinarily high hemin requirement for growth compared to other bacterial pathogens. We previously identified the major hemin receptor of the pathogen as a 30-kDa surface protein, termed HbpA. This report describes four additional homologues that share approximately 48% amino acid sequence identity with hbpA. Three of the genes form a paralagous cluster, termed hbpCAB, whereas the other members, hbpD and hbpE, are unlinked. Secondary structure predictions and other evidence suggest that Hbp family members are β-barrels located in the outer membrane and contain eight transmembrane domains plus four extracellular loops. Homologs from a variety of gram-negative pathogens were identified, including Bartonella henselae Pap31, Brucella Omp31, Agrobacterium tumefaciens Omp25, and neisserial opacity proteins (Opa). Family members expressed in vitro-synthesized proteins ranging from ca. 26.5 to 35.1 kDa, with the exception of HbpB, an ∼55.9-kDa protein whose respective gene has been disrupted by a ∼510 GC-rich element containing variable-number tandem repeats. Transcription analysis by quantitative reverse transcriptase-PCR (RT-PCR) indicates that all family members are expressed under normal culture conditions, with hbpD and hbpB transcripts being the most abundant and the rarest, respectively. Mutagenesis of hbpA by allelic exchange produced a strain that exhibited an enhanced hemin-binding phenotype relative to the parental strain, and analysis by quantitative RT-PCR showed elevated transcript levels for the other hbp family members, suggesting that compensatory expression occurs.

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Mitochondrial Outer Membrane Proteins Assist Bid in Bax-mediated Lipidic Pore Formation

Molecular Biology of the Cell ◽

10.1091/mbc.e08-10-1056 ◽

2009 ◽

Vol 20 (8) ◽

pp. 2276-2285 ◽

Cited By ~ 82

Author(s):

Blanca Schafer ◽

Joel Quispe ◽

Vineet Choudhary ◽

Jerry E. Chipuk ◽

Teddy G. Ajero ◽

...

Keyword(s):

Outer Membrane ◽

Pore Formation ◽

Outer Membrane Proteins ◽

Mitochondrial Outer Membrane ◽

Outer Membranes ◽

Mitochondrial Outer Membrane Permeabilization ◽

In Vitro Systems ◽

Large Round ◽

Key Features

Mitochondrial outer membrane permeabilization (MOMP) is a critical step in apoptosis and is regulated by Bcl-2 family proteins. In vitro systems using cardiolipin-containing liposomes have demonstrated the key features of MOMP induced by Bax and cleaved Bid; however, the nature of the “pores” and how they are formed remain obscure. We found that mitochondrial outer membranes contained very little cardiolipin, far less than that required for liposome permeabilization, despite their responsiveness to Bcl-2 family proteins. Strikingly, the incorporation of isolated mitochondrial outer membrane (MOM) proteins into liposomes lacking cardiolipin conferred responsiveness to cleaved Bid and Bax. Cardiolipin dependence was observed only when permeabilization was induced with cleaved Bid but not with Bid or Bim BH3 peptide or oligomerized Bax. Therefore, we conclude that MOM proteins specifically assist cleaved Bid in Bax-mediated permeabilization. Cryoelectron microscopy of cardiolipin-liposomes revealed that cleaved Bid and Bax produced large round holes with diameters of 25–100 nm, suggestive of lipidic pores. In sum, we propose that activated Bax induces lipidic pore formation and that MOM proteins assist cleaved Bid in this process in the absence of cardiolipin.

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Enzyme-linked immunosorbent assay with major outer membrane proteins of Brucella melitensis to measure immune response to Brucella species.

Journal of Clinical Microbiology ◽

10.1128/jcm.24.4.566-572.1986 ◽

1986 ◽

Vol 24 (4) ◽

pp. 566-572 ◽

Cited By ~ 14

Author(s):

S B Hunter ◽

W F Bibb ◽

C N Shih ◽

A F Kaufmann ◽

J R Mitchell ◽

...

Keyword(s):

Immune Response ◽

Membrane Proteins ◽

Outer Membrane ◽

Immunosorbent Assay ◽

Brucella Melitensis ◽

Outer Membrane Proteins ◽

Enzyme Linked Immunosorbent Assay ◽

Brucella Species

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Proteins Released by Helicobacter pylori In Vitro

Journal of Bacteriology ◽

10.1128/jb.184.22.6155-6162.2002 ◽

2002 ◽

Vol 184 (22) ◽

pp. 6155-6162 ◽

Cited By ~ 64

Author(s):

Nayoung Kim ◽

David L. Weeks ◽

Jai Moo Shin ◽

David R. Scott ◽

Mary K. Young ◽

...

Keyword(s):

Helicobacter Pylori ◽

Membrane Proteins ◽

Dna Binding ◽

Outer Membrane ◽

Nalidixic Acid ◽

Outer Membrane Proteins ◽

Gastric Epithelium ◽

Synthesis Inhibitor ◽

Vitro Analysis

ABSTRACT Secretion of proteins by Helicobacter pylori may contribute to gastric inflammation and epithelial damage. An in vitro analysis was designed to identify proteins released by mechanisms other than nonspecific lysis. The radioactivity of proteins in the supernatant was compared with that of the intact organism by two-dimensional gel phosphorimaging following a 4-h pulse-chase. The ratio of the amount of UreB, a known cytoplasmic protein, in the supernatant to that in the pellet was found to be 0.25, and this was taken as an index of lysis during the experiments (n = 6). Ratios greater than that of UreB were used to distinguish proteins that were selectively released into the medium. Thus, proteins enriched more than 10-fold in the supernatant compared to UreB were identified by mass spectrometry. Sixteen such proteins were present in the supernatant: VacA; a conserved secreted protein (HP1286); putative peptidyl cis-trans isomerase (HP0175); six proteins encoded by HP0305, HP0231, HP0973, HP0721, HP0129, and HP0902; thioredoxin (HP1458); single-stranded-DNA-binding 12RNP2 precursor (HP0827); histone-like DNA-binding protein HU (HP0835); ribosomal protein L11 (HP1202); a putative outer membrane protein (HP1564); and outer membrane proteins Omp21 (HP0913) and Omp20 (HP0912). All except HP0902, thioredoxin, HP0827, HP0835, and HP1202 had a signal peptide. When nalidixic acid, a DNA synthesis inhibitor, was added to inhibit cell division but not protein synthesis, to decrease possible contamination due to outer membrane shedding, two outer membrane proteins (Omp21 and Omp20) disappeared from the supernatant, and the amount of VacA also decreased. Thus, 13 proteins were still enriched greater than 10-fold in the medium after nalidixic acid treatment, suggesting these were released specifically, possibly by secretion. These proteins may be implicated in H. pylori-induced effects on the gastric epithelium.

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Purification of the Major Outer Membrane Protein of Azospirillum brasilense, Its Affinity to Plant Roots, and Its Involvement in Cell Aggregation

Molecular Plant-Microbe Interactions ◽

10.1094/mpmi.2001.14.4.555 ◽

2001 ◽

Vol 14 (4) ◽

pp. 555-561 ◽

Cited By ~ 44

Author(s):

Saul Burdman ◽

Gabriella Dulguerova ◽

Yaacov Okon ◽

Edouard Jurkevitch

Keyword(s):

Membrane Protein ◽

Outer Membrane ◽

Outer Membrane Protein ◽

Azospirillum Brasilense ◽

Outer Membrane Proteins ◽

Cell Aggregation ◽

Major Outer Membrane Protein ◽

Adhesion Assay ◽

Fab Fragments

The major outer membrane protein (MOMP) of the nitrogen-fixing rhizobacterium Azospirillum brasilense strain Cd was purified and isolated by gel filtration, and antiserum against this protein was obtained. A screening of the binding of outer membrane proteins (OMPs) of A. brasilense to membrane-immobilized root extracts of various plant species revealed different affinities for the MOMP, with a stronger adhesion to extracts of cereals in comparison with legumes and tomatoes. Moreover, this protein was shown to bind to roots of different cereal seedlings in an in vitro adhesion assay. Incubation of A. brasilense cells with MOMP-antiserum led to fast agglutination, indicating that the MOMP is a surface-exposed protein. Cells incubated with Fab fragments obtained from purified MOMP-antiserum immunoglobulin G exhibited significant inhibition of bacterial aggregation as compared with controls. Bacteria preincubated with Fab fragments showed weaker adhesion to corn roots in comparison to controls without Fab fragments. These findings suggest that the A. brasilense MOMP acts as an adhesin involved in root adsorption and cell aggregation of this bacterium.

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Localized adherence by enteropathogenic Escherichia coli is an inducible phenotype associated with the expression of new outer membrane proteins.

Journal of Experimental Medicine ◽

10.1084/jem.174.5.1167 ◽

1991 ◽

Vol 174 (5) ◽

pp. 1167-1177 ◽

Cited By ~ 64

Author(s):

J Vuopio-Varkila ◽

G K Schoolnik

Keyword(s):

Escherichia Coli ◽

Membrane Proteins ◽

Outer Membrane ◽

De Novo ◽

Outer Membrane Proteins ◽

Temporal Correlation ◽

Enteropathogenic Escherichia Coli ◽

E Coli

Enteropathogenic Escherichia coli grow as discrete colonies on the mucous membranes of the small intestine. A similar pattern can be demonstrated in vitro; termed localized adherence (LA), it is characterized by the presence of circumscribed clusters of bacteria attached to the surfaces of cultured epithelial cells. The LA phenotype was studied using B171, an O111:NM enteropathogenic E. coli (EPEC) strain, and HEp-2 cell monolayers. LA could be detected 30-60 min after exposure of HEp-2 cells to B171. However, bacteria transferred from infected HEp-2 cells to fresh monolayers exhibited LA within 15 min, indicating that LA is an inducible phenotype. Induction of the LA phenotype was found to be associated with de novo protein synthesis and changes in the outer membrane proteins, including the production of a new 18.5-kD polypeptide. A partial NH2-terminal amino acid sequence of this polypeptide was obtained and showed it to be identical through residue 12 to the recently described bundle-forming pilus subunit of EPEC. Expression of the 18.5-kD polypeptide required the 57-megadalton enteropathogenic E. coli adherence plasmid previously shown to be required for the LA phenotype in vitro and full virulence in vivo. This observation, the correspondence of the 18.5-kD polypeptide to an EPEC-specific pilus protein, and the temporal correlation of its expression with the development of the LA phenotype suggest that it may contribute to the EPEC colonial mode of growth.

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Catecholamine-Modulated Novel Surface-Exposed Adhesin LIC20035 ofLeptospiraspp. Binds Host Extracellular Matrix Components and Is Recognized by the Host during Infection

Applied and Environmental Microbiology ◽

10.1128/aem.02360-17 ◽

2017 ◽

Vol 84 (6) ◽

Cited By ~ 3

Author(s):

Karukriti Kaushik Ghosh ◽

Aman Prakash ◽

Vinayagamurthy Balamurugan ◽

Manish Kumar

Keyword(s):

Membrane Proteins ◽

Outer Membrane ◽

Membrane Surface ◽

Outer Membrane Proteins ◽

Extracellular Matrices ◽

Content Type ◽

Extracellular Matrix Components ◽

Gene Transcripts ◽

Host Tissues

ABSTRACTIn this study, the effect of the host stress hormone catecholamine onLeptospiragene transcripts encoding outer membrane proteins was investigated. There was no impact of catecholamine supplementation on thein vitrogrowth pattern ofLeptospira interrogans; however, 7 genes out of 41 were differentially transcribed, and the effect was reversed to the basal level in the presence of the antagonist propranolol. Comprehensive analysis of one of the differentially regulated proteins, LIC20035 (in serovar Copenhageni)/LB047 (in serovar Lai) (due to catecholamine supplementation), revealed immunogenicity and ability to adhere to host extracellular matrices. Protease accessibility assay and phase partition of integral membrane proteins ofLeptospirashowed LIC20035/LB047 to be an outer membrane surface-exposed protein. The recombinant LIC20035 protein can be serologically detected using human/bovine sera positive for leptospirosis. Moreover, the recombinant LIC20035 can bind to diverse host extracellular matrices, with a higher affinity toward collagen and chondroitin sulfate.IMPORTANCELeptospirosis is a neglected tropical disease of global importance. This study aimed to identify outer membrane proteins of pathogenicLeptospiraresponding to host chemical signals like catecholamines, with the potential to serve as virulence factors, new serodiagnostic antigens, and vaccine candidates. This study mimicked the plausible means by whichLeptospiraduring infection and hormonal stress intercepts host catecholamines to disseminate in host tissues.

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Mutations of the Quorum Sensing-Dependent Regulator VjbR Lead to Drastic Surface Modifications in Brucella melitensis

Journal of Bacteriology ◽

10.1128/jb.00265-07 ◽

2007 ◽

Vol 189 (16) ◽

pp. 6035-6047 ◽

Cited By ~ 54

Author(s):

Sophie Uzureau ◽

Marie Godefroid ◽

Chantal Deschamps ◽

Julien Lemaire ◽

Xavier De Bolle ◽

...

Keyword(s):

Quorum Sensing ◽

Brucella Melitensis ◽

Outer Membrane Proteins ◽

Regulatory System ◽

Fine Tuning ◽

Altered Expression ◽

Homoserine Lactones ◽

Type Iv ◽

Cell Surface Structures

ABSTRACT Successful establishment of infection by bacterial pathogens requires fine-tuning of virulence-related genes. Quorum sensing (QS) is a global regulation process based on the synthesis of, detection of, and response to small diffusible molecules, called N-acyl-homoserine lactones (AHL), in gram-negative bacteria. In numerous species, QS has been shown to regulate genes involved in the establishment of pathogenic interactions with the host. Brucella melitensis produces N-dodecanoyl homoserine lactones (C12-HSL), which down regulate the expression of flagellar genes and of the virB operon (encoding a type IV secretion system), both of which encode surface virulence factors. A QS-related regulator, called VjbR, was identified as a transcriptional activator of these genes. We hypothesized that VjbR mediates the C12-HSL effects described above. vjbR alleles mutated in the region coding for the AHL binding domain were constructed to test this hypothesis. These alleles expressed in trans in a ΔvjbR background behave as constitutive regulators both in vitro and in a cellular model of infection. Interestingly, the resulting B. melitensis strains, unable to respond to AHLs, aggregate spontaneously in liquid culture. Preliminary characterization of these strains showed altered expression of some outer membrane proteins and overproduction of a matrix-forming exopolysaccharide, suggesting for the first time that B. melitensis could form biofilms. Together, these results indicate that QS through VjbR is a major regulatory system of important cell surface structures of Brucella and as such plays a key role in host-pathogen interactions.

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