The virulence factors of<i>Bordetella pertussis</i>: a matter of control

Smith, Adam M; Guzmán, Carlos A.; Walker, Mark J.

doi:10.1111/j.1574-6976.2001.tb00580.x

Cited by 67 publications

(7 citation statements)

References 264 publications

(388 reference statements)

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“…To examine the possible basis for differences in virulence phenotypes amongst strains/lineages, we compared the presence/absence of factors thought to be involved in interactions with the host, loosely referred to as “virulence factors”, including filamentous hemagglutinin (FHA), fimbriae (Fims), pertactin (PRN), tracheal colonization factor (TcfA), adenylate cyclase/hemolysin (ACT), dermonecrotic toxin (Dnt), pertussis toxin (Ptx), Bordetella resistance to killing (BrkA) protein [29], O-antigen [30], Type III secretion system (TTSS) [31], and Type VI secretion system (T6SS) [32]. Only genes encoding FHA, PRN, and TTSS locus are conserved in all strains (Figure 4).…”

Section: Resultsmentioning

confidence: 99%

“…Genes and the loci that encode the known virulence factors, filamentous haemagglutinin (FHA), fimbriae (Fims), pertactin (PRN), tracheal colonization factor (TcfA), invasive adenylate cyclase/haemolysin (ACT), dermonecrotic toxin (Dnt), pertussis toxin (Ptx), Bordetella resistance to killing (BrkA) [29], O-antigen [30], Type III secretion system (TTSS) [31], and Type VI secretion system (T6SS) [32], were compared among the eleven genomes via ACT [70]. Percent sequence similarity was calculated based on RB50 sequences with BLASTN [62], and genes that either contain a frame-shift mutation or an in-frame stop codon, or that are absent were highlighted with different colors in the heatmap that was generated by R [71].…”

Section: Methodsmentioning

confidence: 99%

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Comparative genomics of the classical Bordetella subspecies: the evolution and exchange of virulence-associated diversity amongst closely related pathogens

et al. 2012

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Background: The classical Bordetella subspecies are phylogenetically closely related, yet differ in some of the most interesting and important characteristics of pathogens, such as host range, virulence and persistence. The compelling picture from previous comparisons of the three sequenced genomes was of genome degradation, with substantial loss of genome content (up to 24%) associated with adaptation to humans. Results: For a more comprehensive picture of lineage evolution, we employed comparative genomic and phylogenomic analyses using seven additional diverse, newly sequenced Bordetella isolates. Genome-wide single nucleotide polymorphism (SNP) analysis supports a reevaluation of the phylogenetic relationships between the classical Bordetella subspecies, and suggests a closer link between ovine and human B. parapertussis lineages than has been previously proposed. Comparative analyses of genome content revealed that only 50% of the pan-genome is conserved in all strains, reflecting substantial diversity of genome content in these closely related pathogens that may relate to their different host ranges, virulence and persistence characteristics. Strikingly, these analyses suggest possible horizontal gene transfer (HGT) events in multiple loci encoding virulence factors, including O-antigen and pertussis toxin (Ptx). Segments of the pertussis toxin locus (ptx) and its secretion system locus (ptl) appear to have been acquired by the classical Bordetella subspecies and are divergent in different lineages, suggesting functional divergence in the classical Bordetellae.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Comparative genomics of the classical Bordetella subspecies: the evolution and exchange of virulence-associated diversity amongst closely related pathogens

et al. 2012

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“…The translocation of the autotransporter passenger domain, which represents the mature virulence protein, across the bacterial outer membrane is mediated by its own cotranslated C-terminal transmembrane translocator domain and the folding properties of the passenger. ,, Pertactin is an extracellular integrin binding protein that mediates attachment of B. pertussis to the ciliated cells of the upper respiratory system . The pertactin passenger domain is 539 aa long and has a predicted net charge of −2.4 e at pH 7.5.…”

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confidence: 99%

Dynamics and Energy Contributions for Transport of Unfolded Pertactin through a Protein Nanopore

et al. 2015

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To evaluate the physical parameters governing translocation of an unfolded protein across a lipid bilayer, we studied protein transport through aerolysin, a passive protein channel, at the single molecule level. The protein model used was the passenger domain of pertactin, an autotransporter virulence protein. Transport of pertactin through the aerolysin nanopore was detected as transient partial current blockades as the unfolded protein partially occluded the aerolysin channel. We compared the dynamics of entry and transport for unfolded pertactin and a covalent end-to-end dimer of the same protein. For both the monomer and the dimer, the event frequency of current blockades increased exponentially with the applied voltage, while the duration of each event decreased exponentially as a function of the electrical potential. The blockade time was twice as long for the dimer as for the monomer. The calculated activation free energy includes a main enthalpic component that we attribute to electrostatic interactions between pertactin and the aerolysin nanopore (despite the low Debye length), plus an entropic component due to confinement of the unfolded chain within the narrow pore. Comparing our experimental results to previous studies and theory suggests that unfolded proteins cross the membrane by passing through the nanopore in a somewhat compact conformation according to the “blob” model of Daoud and de Gennes.

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“…The acellular pertussis (aP) vaccines comprise major antigens such as PT and other components such as filamentous hemagglutinin (FHA), fimbrial antigens (FIM2, FIM3), and pertactin (PRN) [ 39 ]. Certain vaccines have shown protective efficacy against genetically related pathogens, as exemplified by BCG vaccination, which protects against Mycobacterium leprae and non-tuberculous mycobacteria [ 40 ]. The potential for pertussis vaccines to confer cross-protection against B. parapertussis remains debated.…”

Section: Discussionmentioning

confidence: 99%

Pertussis Vaccines Scarcely Provide Protection against Bordetella parapertussis Infection in Children—A Systematic Review and Meta-Analysis

Remesh,

Alagarasu,

Jadhav

et al. 2024

Vaccines

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Background: Pertussis, or whooping cough, is a global public health concern. Pertussis vaccines have demonstrated good protection against Bordetella pertussis infections, but their effectiveness against Bordetella parapertussis remains debated due to conflicting study outcomes. Methods: A systematic review and meta-analysis were conducted to assess the effectiveness of pertussis vaccines in protecting children against B. parapertussis infection. A comprehensive search of PubMed, Web of Science, and Scopus databases was conducted, and randomized controlled trials (RCTs) and observational studies that met inclusion criteria were included in the analysis. Results: The meta-analysis, involving 46,533 participants, revealed no significant protective effect of pertussis vaccination against B. parapertussis infection (risk ratio: 1.10, 95% confidence interval: 0.83 to 1.44). Subgroup analyses by vaccine type and study design revealed no significant protection. The dearth of recent data and a limited pool of eligible studies, particularly RCTs, underscore a critical gap that warrants future research in the domain. Conclusions: These findings offer crucial insights into the lack of effectiveness of pertussis vaccines against B. parapertussis. Given the rising incidence of cases and outbreaks, coupled with the lack of cross-protection by the existing vaccines, there is an urgent need to develop vaccines that include specific antigens to protect against B. parapertussis.

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The virulence factors ofBordetella pertussis: a matter of control

Cited by 67 publications

References 264 publications

Comparative genomics of the classical Bordetella subspecies: the evolution and exchange of virulence-associated diversity amongst closely related pathogens

Comparative genomics of the classical Bordetella subspecies: the evolution and exchange of virulence-associated diversity amongst closely related pathogens

Dynamics and Energy Contributions for Transport of Unfolded Pertactin through a Protein Nanopore

Pertussis Vaccines Scarcely Provide Protection against Bordetella parapertussis Infection in Children—A Systematic Review and Meta-Analysis

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