Use this URL to cite or link to this record in EThOS: http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.586839
Title: Investigation of virulent and avirulent Brachyspira hyodysenteriae isolates
Author: Binkowski, Sabrina Katrin
Awarding Body: University of Glasgow
Current Institution: University of Glasgow
Date of Award: 2013
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Abstract:
Brachyspira hyodysenteriae is an anaerobic intestinal spirochaete and the aetiological agent of swine dysentery (SD). Throughout the UK and Europe, pathogenic and potential non-pathogenic isolates of B. hyodysenteriae have been recovered from pig herds, creating major obstacles for the detection and control of this economically important pathogen. Therefore, the main aim of this research was to compare one representative of virulent (P8544) and one representative of avirulent (P7455) strains of B. hyodysenteriae using genomic and proteomics approaches with a view to identify distinctive genes or proteins. The B. hyodysenteriae draft genomes of P8544 and P7455 consisted of a circular 3.0 Mb chromosome and a 31,469-34,822 bp circular plasmid that is also present in the only published B. hyodysenteriae genome, WA1. A considerable number of genes (~27-35) were identified in both the virulent and avirulent strains that shared high sequence homology with genes found in other spirochaetes, such as B. murdochii and B. intermedia, as well as in other species of bacteria; these may have been acquired via horizontal gene transfer. Comparative genomics of the two pathogenic genomes P8544 and WA1 versus the non-pathogenic genome P7455 revealed that the gene encoding for the methyltransferase type 11 (Bhyoa7455_20) was identified as being unique to the P7455 plasmid sequence and was successfully PCR amplified in a greater number of avirulent than virulent strains. However, as this was only just statistically significant (P=0.049), screening of a much larger strain set would clearly be required to support this gene as a suitable genetic marker to distinguish virulent and avirulent B. hyodysenteriae strains. Bacterial acquisition of iron in-vivo is crucial for successful colonisation and persistence in the host. A further aim of this study was to compare the growth phenotype of B. hyodysenteriae isolates P8544 and P7455 grown under iron-limiting conditions; such as would be found in-vivo in the large intestine of the host. Analysis of P8544 and P7455 growth rate in iron-sequestered media (containing 0.1 mM of the iron-chelator dipyridyl) demonstrated that both these isolates could replicate in this media although with an extended lag-phase of approximately 32-34 hrs; growth rate was on par with the iron-replete conditions. qRT-PCR analysis of eight putative iron-acquisition genes under iron-sequestered and iron-replete conditions revealed a difference in transcription for a number of ABC-transporter genes in P8544 and P7455, however, none of these were classified as statistically significant. Non-quantitative shotgun proteomic based approach was used to analyse outer-membrane protein (OMPs) expression of P8544 and P7455 under low-iron and iron-replete growth conditions and revealed alteration in the OM expression profiles between the isolates and conditions using KEGG analysis. The majority of expressed proteins under iron-replete conditions were categorized in membrane transport (11%) and carbohydrate metabolism (7%). Under iron-restriction the OM profile changed most obviously in a decreased percentage of proteins particularly assigned in the categories energy metabolism and membrane transport. The percentage of proteins assigned no predicted function increased by 19% under iron-limited conditions highlighting the fact that biological functions of the majority of these expressed proteins in such an environment remains to be determined. Two-dimensional gel-electrophoresis (2-DGE) of whole cell fraction indicated that the alkyl-hydrogen peroxide reductase protein (AhpC) in P7455 and the non-haem iron-containing ferritin (Bhyov8544_1528) in P8544 were significantly (P<0.05; 1.5-fold) more expressed under iron-restricted conditions than under iron-replete conditions. These data confirmed the importance of iron to virulent and avirulent B. hyodysenteriae. The so far identified significantly expressed proteins may serve as a potential biomarker for global diagnostic purposes for B. hyodysenteriae infections rather than a tool for differentiation for virulent and avirulent isolates. However, further work is required to prove if these candidates are expressed in-vivo and conserved in a wider panel of field isolates. In conclusion, this research has contributed to the scientific knowledge regarding B. hyodysenteriae stress responses induced by iron-starvation and has provided further insight into the genetic and proteomic make up of this spirochaete. This work should also aid future investigations concerning the biology and pathogenicity of this important and grossly understudied swine pathogen.
Supervisor: Not available Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID: uk.bl.ethos.586839  DOI: Not available
Keywords: QR Microbiology ; QR180 Immunology
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