Project description:Campylobacter jejuni is a common cause of diarrheal disease worldwide. Human infection typically occurs through the ingestion of contaminated poultry products. We previously demonstrated that an attenuated Escherichia coli live vaccine strain expressing the C. jejuni N-glycan on its surface reduces the Campylobacter load in more than 50% of vaccinated leghorn and broiler birds to undetectable levels (responder birds), whereas the remainder of the animals were still colonized (non-responders). To understand the underlying mechanism, we conducted 3 larger scale vaccination and challenge studies using 135 broiler birds and found a similar responder/non responder effect. The submitted data were used for a genome-wide association study of the chicken responses to glycoconjugate vaccination against Campylobacter jejuni.

Project description:Campylobacter jejuni is the most prevalent cause of foodborne bacterial enteritis worldwide. This study aims at the characterisation of pathomechanisms and signalling in Campylobacter-induced diarrhoea in the human mucosa. During routine colonoscopy, biopsies were taken from patients suffering from campylobacteriosis. RNA-seq of colon biopsies was performed to describe Campylobacter jejuni-mediated effects. Mucosal mRNA profiles of acutely infected patients and healthy controls were generated by deep sequencing using Illumina HiSeq 2500. This data provide the basis for subsequent upstream regulator analysis.

Project description:Expression arrays comparing Campylobacter jejuni NCTC11168 during growth in the cecum of germ-free C57 BL/6 IL-10 knockout mice to C. jejuni NCTC11168 during growth in Bolton broth.

Project description:Campylobacter jejuni is the prevalent cause of bacterial gastroenteritis in human worldwide. The ability to survive stomach acidity is a fundamental requirement for C. jejuni to colonize the host and cause disease. However, the mechanism of C. jejuni acid survival is still unknown. Herein, we demonstrated that C. jejuni is able to survive acidic conditions at pH 4 up to 8 min without a drop in viability. The acid stimulon of C. jejuni 81-176 revealed the up-regulation of many genes important for Campylobacter acid survival such as heat shock genes and genes involved in energy metabolism. On the other hand, the repression of ribosomal genes highlights the ability of C. jejuni to direct its machinery to survive stressful conditions. Prior acid exposure cross-protected C. jejuni against oxidative stress suggesting an overlap in C. jejuni’s responses to various stresses. Interestingly, the induced expression of virulence genes in C. jejuni upon acid exposure such as the Campylobacter invasion antigen (ciaB) indicates that acid stress plays a role in C. jejuni host pathogenesis. Acid exposure significantly enhanced C. jejuni pathogenesis in both eukaryotic cells and G. melonella. To the best of our knowledge, this is the first study characterizes the influence of acid stress on C. jejuni pathogenesis in an infection model. Altogether, this study uncovers the transcriptional profile of C. jejuni in response to acidic conditions as those encountered in the stomach. In addition, our results demonstrate that acid stress jump-starts C. jejuni for efficient gut colonization and host pathogenesis. Campylobacter jejuni is the prevalent cause of bacterial gastroenteritis in human worldwide. The ability to survive stomach acidity is a fundamental requirement for C. jejuni to colonize the host and cause disease. However, the mechanism of C. jejuni acid survival is still unknown. Herein, we demonstrated that C. jejuni is able to survive acidic conditions at pH 4 up to 8 min without a drop in viability. The acid stimulon of C. jejuni 81-176 revealed the up-regulation of many genes important for Campylobacter acid survival such as heat shock genes and genes involved in energy metabolism. On the other hand, the repression of ribosomal genes highlights the ability of C. jejuni to direct its machinery to survive stressful conditions. Prior acid exposure cross-protected C. jejuni against oxidative stress suggesting an overlap in C. jejuni’s responses to various stresses. Interestingly, the induced expression of virulence genes in C. jejuni upon acid exposure such as the Campylobacter invasion antigen (ciaB) indicates that acid stress plays a role in C. jejuni host pathogenesis. Acid exposure significantly enhanced C. jejuni pathogenesis in both eukaryotic cells and G. melonella. To the best of our knowledge, this is the first study characterizes the influence of acid stress on C. jejuni pathogenesis in an infection model. Altogether, this study uncovers the transcriptional profile of C. jejuni in response to acidic conditions as those encountered in the stomach. In addition, our results demonstrate that acid stress jump-starts C. jejuni for efficient gut colonization and host pathogenesis.

Project description:Campylobacter jejuni has become the predominant cause of sheep abortions in the U.S. However, little is know about the genetic diversity among the isolates collected from different time periods. In this study, the genetic diversity of sheep aborion isolates of C. jejuni was investigated by Array-based CGH

Project description:Campylobacter jejuni has become the predominant cause of sheep abortions in the U.S. However, little is know about the genetic diversity among the isolates collected from different time periods. In this study, the genetic diversity of sheep abortion isolates of C. jejuni was investigated by Array-based CGH

Project description:Campylobacter jejuni is a major zoonotic pathogen transmitted to humans via the food chain. C. jejuni is prevalent in chickens, a natural reservoir for this pathogenic organism. Due to the importance of macrolide antibiotics in clinical therapy of human campylobacteriosis, development of macrolide resistance in Campylobacter has become a concern for public health.To facilitate understanding the molecular basis associated with the fitness difference between Erys and Eryr Campylobacter, we compared the transcriptomes between ATCC 700819 and its isogenic Eryr transformant T.L.101 using DNA microarray.

Project description:Screening of 22 novel proteins derived from Campylobacter jejuni NCTC 11168 identified prior via screening of cDNA libraries. The full-length proteins were attached using a specific HaloTag to their corresponding ligand surface, HaloLink. Screening was performed using three different polyclonal antibodies to Campylobacter jejuni and detection was achieved by goat polyclonal antibody to rabbit IgG conjugated with Chromeo-546. In order to assess their potential immungenic nature and rank the proteins investigated, comparative analysis using already described antigens from C. jejuni were used in the assay.

Project description:This study investigates the CsrA regulon of the food-borne pathogen Campylobacter jejuni. Direct RNA binding targets of CsrA in two strains of C. jejuni, NCTC11168 and 81-176, were determined using RIP-seq.

Project description:In order to investigate the gene experssion changes in Campylobacter jejuni triggered by exposure to Novobiocin.