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| Status |
Public on Nov 21, 2014 |
| Title |
Differentially Expressed Genes in Bordetella pertussis Strains Belonging to a Lineage Which Recently Spread Globally |
| Platform organisms |
Bordetella bronchiseptica; Bordetella pertussis |
| Sample organisms |
Bordetella pertussis B1917; Bordetella pertussis B1920 |
| Experiment type |
Expression profiling by array
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| Summary |
Pertussis is a highly contagious, acute respiratory disease in humans caused by the Gram-negative pathogen Bordetella pertussis. Pertussis has resurged in the face of intensive vaccination and this has coincided with the emergence of strains carrying a particular allele for the pertussis toxin promoter, ptxP3, which is associated with higher levels of pertussis toxin (Ptx) production. Within 10 to 20 years, ptxP3 strains have nearly completely replaced the previously dominant ptxP1 strains resulting in a worldwide selective sweep. In order to identify B. pertussis genes associated with the selective sweep, we compared the expression of genes in ptxP1 and ptxP3 strains that are under control of the Bordetella master virulence regulatory locus (bvgASR). The BvgAS proteins comprise a two component sensory transduction system which is regulated by temperature, nicotinic acid and sulfate. By increasing the sulfate concentration, it is possible to change the phase of B. pertussis from virulent to avirulent. Until recently, the only distinctive phenotype of ptxP3 strains was a higher Ptx production. Here we identify additional phenotypic differences between ptxP1 and ptxP3 strains which may have contributed to its global spread by comparing global transcriptional responses under sulfate-modulating conditions. We show that ptxP3 strains are less sensitive to sulfate-mediated gene suppression, resulting in an increased production of the vaccine antigens pertactin (Prn) and Ptx and a number of other virulence genes, including a type III secretion toxin, Vag8, a protein involved in complement resistance, and lpxE involved in lipid A modification. Furthermore, enhanced expression of the vaccine antigens Ptx and Prn by ptxP3 strains was confirmed at the protein level. Identification of genes differentially expressed between ptxP1 and ptxP3 strains may elucidate how B. pertussis has adapted to vaccination and allow the improvement of pertussis vaccines by identifying novel vaccine candidates.
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| Overall design |
This study was designed to investigate gene expression differences between the Bordetella pertussis strains ptxP1 and the ptxP3 in rich medium with different sulfate concentrations. Both the ptxP1 strain under low (<0.02 mM) , intermediate (5 mM) and high sulfate (50 mM) conditions and the ptxP3 strain under low, intermediate and high sulfate conditions. Culturing and gene expression analysis of B. pertussis was performed 4 times and analyzed using custom microarrays. Gene expression values were log2-transformed and differentially expressed genes were identified based on log2 fold changes. P values were calculated with a Bayes-regularized one-way ANOVA.
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| Contributor(s) |
de Gouw D, Zomer A, Diavatopoulos D, Mooi F |
| Citation(s) |
24416242 |
| |
| Submission date |
Jul 31, 2013 |
| Last update date |
Nov 23, 2014 |
| Contact name |
Aldert Zomer |
| E-mail(s) |
A.L.Zomer@uu.nl
|
| Organization name |
Utrecht University
|
| Department |
Department of Infectious Diseases and Immunology,Faculty of Veterinary Medicine
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| Street address |
Yalelaan 1
|
| City |
Utrecht |
| ZIP/Postal code |
3584 cl |
| Country |
Netherlands |
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| Platforms (1) |
| GPL17516 |
NimbleGen Bordetella 4x72K custom design expression array (genes) |
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| Samples (24)
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| Relations |
| BioProject |
PRJNA213859 |
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