Project description:Despite high vaccination coverage, pertussis is on the rise in many countries including Czech Republic. To better understand B. pertussis resurgence we compared the changes in genome structures between Czech vaccine and circulating strains and subsequently, we determined how these changes translated into global transcriptomic and proteomic profiles. The whole-genome sequencing revealed that both historical and recent isolates of B. pertussis display substantial variation in genome organization and cluster separately. The RNA-seq and LC-MS/MS analyses indicate that these variations translated into discretely separated transcriptomic and proteomic profiles. Compared to vaccine strains, recent isolates displayed increased expression of flagellar genes and decreased expression of polysaccharide capsule operon. Czech strains (Bp46, K10, Bp155, Bp318 and Bp6242)exhibited increased expression of T3SS and sulphate metabolism genes when compared to Tohama I. In spite of 50 years of vaccination the Czech vaccine strains (VS67, VS393 and VS401) differ from recent isolates to a lesser extent than from another vaccine strain Tohama I.

Project description:Resurgence of pertussis has been observed in many countries with high vaccination coverage and clonal expansion of certain Bordetella pertussis strains has been associated with recent epidemics in Europe. It is known that vaccinations have selected strains which are different from those used for vaccine production. However, little is known about the differences in genomic content of strains circulating before the vaccination was introduced. In this study, we compared the genomes of 39 vaccine strains and old clinical isolates collected from Finland (N=5), Poland (N=14), Serbia (N=10) and the UK (N=10). The analysis included genotyping, pulsed-field gel electrophoresis (PFGE) and comparative genomic hybridisation (CGH). Compared to the strain Tohama I, the European strains analyzed have lost three major regions of difference (RD3, 5 and 29). However, difference in frequency of the absent RDs 3, 5 or 29 was observed among the four countries. Of the strains with absent RD5, half had also a duplicated region in the genome. All four RDs (RD22, 23, 24 and 26) absent in Tohama I were present in majority of the tested strains. Results obtained from PFGE analysis correlated well with those of CGH. Recently a novel pertussis toxin promoter allele (ptxP3) was described. Strains with ptxP3 have replaced resident ptxP1 strains. When the recent strains (N=22) selected from the four countries were examined, the ptxP3 allele was found in all countries except Poland. Our result indicates that at least three clusters of B. pertussis circulated in Europe in pre-vaccine era and their genomes were distinct from that of the reference strain Tohama I. Although progressive gene loss occurs in B. pertussis population with time, difference in frequency of the lost genes were observed among the countries. The observed differences in genomic content might be vaccine-driven.

Project description:Resurgence of pertussis has been observed in many countries with high vaccination coverage and clonal expansion of certain Bordetella pertussis strains has been associated with recent epidemics in Europe. It is known that vaccinations have selected strains which are different from those used for vaccine production. However, little is known about the differences in genomic content of strains circulating before the vaccination was introduced. In this study, we compared the genomes of 39 vaccine strains and old clinical isolates collected from Finland (N=5), Poland (N=14), Serbia (N=10) and the UK (N=10). The analysis included genotyping, pulsed-field gel electrophoresis (PFGE) and comparative genomic hybridisation (CGH). Compared to the strain Tohama I, the European strains analyzed have lost three major regions of difference (RD3, 5 and 29). However, difference in frequency of the absent RDs 3, 5 or 29 was observed among the four countries. Of the strains with absent RD5, half had also a duplicated region in the genome. All four RDs (RD22, 23, 24 and 26) absent in Tohama I were present in majority of the tested strains. Results obtained from PFGE analysis correlated well with those of CGH. Recently a novel pertussis toxin promoter allele (ptxP3) was described. Strains with ptxP3 have replaced resident ptxP1 strains. When the recent strains (N=22) selected from the four countries were examined, the ptxP3 allele was found in all countries except Poland. Our result indicates that at least three clusters of B. pertussis circulated in Europe in pre-vaccine era and their genomes were distinct from that of the reference strain Tohama I. Although progressive gene loss occurs in B. pertussis population with time, difference in frequency of the lost genes were observed among the countries. The observed differences in genomic content might be vaccine-driven. The strains were serotyped for the fimbriae, genotyped with LightCycler RT-PCR for pertussis toxin subunit 1 (ptxA), pertussis toxin promoter (ptxP) (Kallonen et al 2011, unpublished data, submitted) and pertactin (prn). The vaccine and old strains were assigned to profiles according to the PFGE results. From every PFGE profile from all countries at least 1 strain was selected and tested for CGH. Altogether 29 strains were analysed with CGH from Poland, Serbia and the United Kingdom, 12, 7 and 10, respectively. In addition 5 old previously published Finnish strains were included in the analysis as well as the reference strain Tohama I (Heikkinen et al., 2007). The hybridisations were performed as previously described (Heikkinen et al., 2007). Microarray data analysis was performed with R/Bioconductor (R Development Core Team, 2008). Print-tip-loess normalization was performed with default parameters and the gains/losses were filtered with Limma package. The regions of difference (RDs) found in this study are presented with the nomenclature defined by Brinig et al. (2006). The RDs which were not described by Brinig et al are indicated by RDs and the consequent unused number.

Project description: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.

Project description:50 Bordetella pertussis strains sequencing

Project description:In the mid-1990s vaccine-related side effects prompted the replacement of the whole Pertussis (wP) by a new acellular Pertussis vaccine (aP). Unexpectedly, whooping cough cases have recently increased, particularly in teenagers. Here we compared individuals born before 1995 and vaccinated in infancy with wP, with individuals born in 1996 or later and vaccinated with aP in infancy. Remarkably, we detected differences in the two populations in response to a contemporary aP booster, despite the fact that the original aP or wP priming occurred more than 18 years previously. The nature of the differences in T cells between aP and wP original priming was further investigated by evaluation of memory subset composition in respect to function, activation and exhaustion expression protein markers and RNA transcriptomic profiles of the PT-specific T cells from aP vs. wP donors. Transcriptomic profile of circulating CD4+ T cells from TCM and TEM memory compartments from donors vaccinated at birth either with whole or acellular Pertussis vaccine. All donors were boosted with the aP vaccine 1-3 months before the PBMCs were collected.

Project description:Genomic content of Bordetella pertussis clinical isolates circulating in areas of intensive children vaccination. 13 isolates and one reference strain of Bordetella pertussis used.

Project description:In this study, transcriptomics was used to investigate Atlantic salmon (Salmo salar) sampled from three different field locations within Baltic Sea (Baltic Main Basin (CBS), Gulf of Finland (GoF) and Bothnian Sea (BS)) during marine migration. RNA labeling, hybridizations, and scanning were performed by the Finnish Microarray and Sequencing Centre in Turku Centre for Biotechnology.

Project description:Comparative Genomics of Bordetella pertussis Reveals Progressive Gene Loss in Finnish Strains

Project description:Genomic content of Bortelella pertussis clinical isolates collected in 2007 in France using 3 isolates and one reference strain