Early colonization of the rat upper respiratory tract by temperature modulated Bordetella bronchiseptica.

The ability of nonmodulated Bvg+ phase cultures, temperature modulated Bvg- phase cultures, and a Bvg- phase-locked mutant of Bordetella bronchiseptica to colonize the rat upper respiratory tract was investigated. Initially, greater numbers of the temperature modulated Bvg- phase bacteria adhered to the nasal cavity of the rats. The temperature modulated Bvg- phase bacteria appeared to be quickly cleared to levels lower than the Bvg+ phase bacteria by 4 h after inoculation and stayed lower until 48 h after inoculation when colonization levels were equal to the Bvg+ phase bacteria. The level of colonization with the Bvg- phase-locked mutant of B. bronchiseptica was lower than both the nonmodulated Bvg+ phase and temperature modulated Bvg- phase cultures and declined over time during the experiment. These findings suggest that there may be increased adherence from an environmental phase to ensure bacteria survive initial clearance mechanisms until the switch to the Bvg+ phase occurs.     

Expression of the primary carbohydrate component of the Bordetella bronchiseptica biofilm matrix is dependent on growth phase but independent of Bvg regulation

We previously showed that the Bvg virulence control system regulates biofilm formation in Bordetella bronchiseptica (Y. Irie, S. Mattoo, and M. H. Yuk, J. Bacteriol. 186:5692-5698, 2004). Analyses of the extracellular components of B. bronchiseptica biofilm matrix revealed that the major sugar component in the matrix was xylose, and linkage analysis indicated a majority of it to be in a 4-linked polymeric form. The production of xylose was independent of Bvg regulation but instead was dependent on bacterial growth phase. In addition, N-acetyl-glucosamine in the matrix was found to be important for the initial development of the biofilm. These results suggest that B. bronchiseptica biofilm formation is growth phase dependent in addition to being regulated by the Bvg virulence system.     

Alcaligin siderophore production by Bordetella bronchiseptica strain RB50 is not repressed by the BvgAS virulence control system

A previous study found that alcaligin siderophore production by Bordetella bronchiseptica strain RB50 is Bvg repressed. In contrast, we report that alcaligin production by RB50 does not require Bvg phenotypic phase modulation and that isogenic Bvg(Con) and Bvg(-) phase-locked mutants both produce alcaligin in response to iron starvation.     

Characterization of intermediate phenotypes induced by chemically undefined laboratory media in virulent Bordetella bronchiseptica strains

The expression of many virulence factors of Bordetella bronchiseptica is regulated by the bvgAS locus and reduced in response to environmental signals called modulators. Virulent strains can alternate between virulent (Bvg(+)), intermediate (Bvg(i)), and modulated (Bvg(+)mod) phenotypes. Potential vaccine antigens can be expressed by Bvg1 strains grown only in the absence of modulators. In the present study we evaluated filamentous hemagglutinin (FHA) and outer membrane protein (OMP) expression in Bvg(+) B. bronchiseptica strains grown in chemically undefined media: nutrient agar (NA), tryptic soy agar (TSA), tryptose phosphate broth (TPB), and brain-heart infusion (BHI). Our results suggest that TSA and TPB usually induce semimodulation, since Bvg(+) strains cultured in these media retained the expression of FHA and virulence-associated OMPs in the 30 kDa region, but failed to express other virulence markers such as OMPs in the regions of 90 and 200 kDa, though they expressed flagellin (avirulence marker). On the other hand, NA and BHI usually induce modulation. Thus the assayed chemically undefined media should not be used in vaccine production. Semimodulation induced by TSA and TPB can be accurately detected by SDS-PAGE Sarkosyl-insoluble OMP-enriched profiles. The reduction or absence of OMPs in the regions of 90 and 200 kDa is the most sensitive marker, and in some cases the presence of flagellin in intermediate profiles is another trait of the Bvg(i) phenotypes. Therefore these markers could be useful for selecting media for vaccine production. We also characterized the phenotype of Bvg(+) strains grown in Stainer-Scholte broth, an expensive medium, with and without glutathione, and we have detected no differences; this is the first attempt to reduce the cost of a Bordetella growth medium for veterinary vaccine production.     

The Bvg virulence control system regulates biofilm formation in Bordetella bronchiseptica

Bordetella species utilize the BvgAS (Bordetella virulence gene) two-component signal transduction system to sense the environment and regulate gene expression among at least three phases: a virulent Bvg+ phase, a nonvirulent Bvg- phase, and an intermediate Bvgi phase. Genes expressed in the Bvg+ phase encode known virulence factors, including adhesins such as filamentous hemagglutinin (FHA) and fimbriae, as well as toxins such as the bifunctional adenylate cyclase/hemolysin (ACY). Previous studies showed that in the Bvgi phase, FHA and fimbriae continue to be expressed, but ACY expression is significantly downregulated. In this report, we determine that Bordetella bronchiseptica can form biofilms in vitro and that the generation of biofilm is maximal in the Bvgi phase. We show that FHA is required for maximal biofilm formation and that fimbriae may also contribute to this phenotype. However, expression of ACY inhibits biofilm formation, most likely via interactions with FHA. Therefore, the coordinated regulation of adhesins and ACY expression leads to maximal biofilm formation in the Bvgi phase in B. bronchiseptica.     

Bordetella bronchiseptica PagP is a Bvg-regulated lipid A palmitoyl transferase that is required for persistent colonization of the mouse respiratory tract

Bordetella bronchiseptica lipopolysaccharide (LPS) expression varies depending on growth conditions, regulated by the Bvg system. A B. bronchiseptica pagP homologue was identified that is required for Bvg-mediated modification of the lipid A core region of LPS that occurs on switching from the Bvg- to the Bvg+ phase. Structural analysis demonstrated that the lipid A of a B. bronchiseptica pagP mutant differed from wild-type lipid A by the absence of a palmitate group in secondary acylation at the C3' position. The putative pagP promoter drove the expression of a green fluorescent protein (GFP) reporter gene in a Bvg-regulated fashion. These data suggest that B. bronchiseptica pagP encodes a Bvg-regulated lipid A palmitoyl transferase that mediates modification of the lipid A as part of the overall Bvg-mediated adaptation of this organism to changing environmental conditions. We also show that pagP is not required for the initial colonization of the mouse respiratory tract by B. bronchiseptica, but is required for persistence of the organism within this organ.     

The bvgAS locus negatively controls motility and synthesis of flagella in Bordetella bronchiseptica.

The products of the bvgAS locus coordinately regulate the expression of Bordetella virulence factors in response to environmental conditions. We have identified a phenotype in Bordetella bronchiseptica that is negatively controlled by bvg. Environmental signals which decrease (modulate) the expression of bvg-activated genes lead to flagellum production and motility in B. bronchiseptica. Wild-type (Bvg+) strains are motile and produce peritrichous flagella only in the presence of modulating signals, whereas Bvg- (delta bvgAS or delta bvgS) strains are motile in the absence of modulators. The bvgS-C3 mutation, which confers signal insensitivity and constitutive activation of positively controlled loci, eliminates the induction of motility and production of flagellar organelles. The response to environmental signals is conserved in a diverse set of clinical isolates of both B. bronchiseptica and B. avium, another motile Bordetella species; however, nicotinic acid induced motility only in B. bronchiseptica. Purification of flagellar filaments from B. bronchiseptica strains by differential centrifugation followed by CsCl equilibrium density gradient centrifugation revealed two classes of flagellins of Mr 35,000 and 40,000. A survey of clinical isolates identified only these two flagellin isotypes, and coexpression of the two forms was not detected in any strain. All B. avium strains tested expressed a 42,000-Mr flagellin. Amino acid sequence analysis of the two B. bronchiseptica flagellins revealed 100% identity in the N-terminal region and 80% identity with Salmonella typhimurium flagellin. Monoclonal antibody 15D8, which recognizes a conserved epitope in flagellins in members of the family Enterobacteriaceae, cross-reacted with flagellins from B. bronchiseptica and B. avium. Our results highlight the biphasic nature of the B. bronchiseptica bvg regulon and provide a preliminary characterization of the Bvg-regulated motility phenotype.     

Differential Bvg phase-dependent regulation and combinatorial role in pathogenesis of two Bordetella paralogs, BipA and BcfA

To successfully colonize their mammalian hosts, many bacteria produce multiple virulence factors that play essential roles in disease processes and pathogenesis. Some of these molecules are adhesins that allow efficient attachment to host cells, a prerequisite for successful host colonization. Bordetella spp. express a number of proteins which either play a direct role in attachment to the respiratory epithelia or exhibit similarity to known bacterial adhesins. One such recently identified protein is BipA. Despite the similarity of BipA to intimins and invasins, deletion of this protein from B. bronchiseptica did not result in any significant defect in respiratory tract colonization. In this study, we identified an open reading frame in B. bronchiseptica, designated bcfA (encoding BcfA [bordetella colonization factor A]), that is similar to bipA. In contrast to the maximal expression of bipA in the Bvg intermediate (Bvg(i)) phase, bcfA is expressed at high levels in both the Bvg(+) and Bvg(i) phases. We show here that BvgA and phosphorylated BvgA bind differentially to the bcfA promoter region. Utilizing immunoblot assays, we found that BcfA is localized to the outer membrane and that it is expressed during animal infection. While deletion of either bipA or bcfA did not significantly affect respiratory tract colonization, concomitant deletion of both genes resulted in a defect in colonization of the rat trachea. Our results indicate that the two paralogous proteins have a combinatorial role in mediating efficient respiratory tract colonization.     

Phenotype evaluation of Bordetella bronchiseptica cultures by urease activity and Congo red affinity

AIMS: The present study shows that Congo red binding and urease activity assays are useful for selection of virulent (Bvg+) Bordetella bronchiseptica cultures. METHODS AND RESULTS: Congo red binding and urease activity of Bvg+ B. bronchiseptica cultures in different liquid media were compared with the expression of virulence markers such as filamentous haemagglutinin and some outer membrane proteins (OMP). The correlation with the reference virulence markers allowed the establishment of cut-off values for the proposed markers to assure the virulent phenotype (> or = 26 nmol ml-1 of CR and < or = 2.6 U). Using both assays, modulated cultures with avirulent phenotype (Stainer-Scholte broth, with MgSO4 20 mmol l-1 and brain heart infusion broth) and semi-modulated cultures with intermediate phenotypes (tryptose phosphate broth and 83% Stainer-Scholte with MgSO4 5 mmol l-1 cultures) could be distinguished. CONCLUSION: CR binding assay and urease activity are specific and sensitive enough to detect intermediate phenotypes that could only be detected by subtle changes in OMP profiles. SIGNIFICANCE AND IMPACT OF THE STUDY: The production of effective veterinary vaccines is hampered by reversible B. bronchiseptica antigenic modulation. The proposed assays are technically suitable for selection of virulent cultures to optimize vaccine production.     

An outbreak of Bordetella bronchiseptica pneumonia in a colony of common marmosets (Callithrix jacchus)

An outbreak of Bordetella bronchiseptica pneumonia occurred in a breeding colony of common marmosets (Callithrix jacchus). 16 animals, all except one under 12 months of age, died suddenly. Extensive lesions of pneumonia and pleurisy were found at necropsy and B. bronchiseptica was isolated from the nasopharynx, trachea and lungs. Older animals had only a mild rhinitis. Colonization of the nasal mucosa occurred in 71 of 156 marmosets.     

Bordetella parapertussis and Bordetella bronchiseptica contain transcriptionally silent pertussis toxin genes

Pertussis toxin, the major virulence factor of Bordetella pertussis, is not produced by the closely related species Bordetella parapertussis and Bordetella bronchiseptica. It is shown here that these two species possess but do not express the complete toxin operon. Nucleotide sequencing of an EcoRI fragment of 5 kilobases comprising the regions homologous to the pertussis toxin genes shows that in this region, B. parapertussis and B. bronchiseptica are 98.5% and 96% homologous, respectively, to B. pertussis. The changes (mostly base pair substitutions) in many cases are identical in B. parapertussis and B. bronchiseptica, suggesting that these two species derive from a common ancestor. Many of the mutations common to B. parapertussis and B. bronchiseptica involve the promoter region, which becomes very inefficient. The S1 subunits of both species, when expressed in Escherichia coli, have the same ADP-ribosylating activity as the S1 subunit from B. pertussis, indicating that the mutations in the S1 gene described here do not affect its function.     

A note on the isoprenoid quinone content of Bordetella avium and related species

The isoprenoid quinone content of isolates of Bordetella avium (four strains), Alcaligenes faecalis (one strain), Bordetella bronchiseptica (one strain) and a Bordetella avium -like organism (four strains) was determined by reverse-phase high-performance liquid chromatography. All the isolates contained ubiquinones with eight isoprene units as the major component. No menaquinones were detected.     

Identification of a Bordetella pertussis bvg-regulated porin-like protein.

Bordetella pertussis 18323 produces a bvg-regulated 39.1-kDa porin-like protein, OmpQ. OmpQ had 61% similarity to the major porin of B. pertussis and contains conserved regions common to both the neisserial and enteric porin families. The results of Southern blot analysis indicate that strains of Bordetella parapertussis and Bordetella bronchiseptica but not Bordetella avium contain this gene.     

A note on the isoprenoid quinone content of Bordetella avium and related species

The isoprenoid quinone content of isolates of Bordetella avium (four strains), Alcaligenes faecalis (one strain), Bordetella bronchiseptica (one strain) and a Bordetella avium-like organism (four strains) was determined by reverse-phase high-performance liquid chromatography. All the isolates contained ubiquinones with eight isoprene units as the major component. No menaquinones were detected.     

Genetics of pertussis toxin

Pertussis toxin (PT) is the major virulence factor of Bordetella pertussis. The cloning and nucleotide sequencing of the PT genes from B. pertussis, Bordetella parapertussis and Bordetella bronchiseptica has elucidated the evolution of the Bordetella species and allowed considerable advances towards the understanding of their gene expression and the development of safer vaccines against pertussis.