Étude de la distribution, de la clonalité et caractérisation des campylobacters isolés de poulets à griller et d'humains

Nadeau, Éric

January 2003

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal.

Campylobacter jejuni

Campylobactériose

Poulet

Humain

Distribution

Risque

Virulence

Gamma-glutamyl transpeptidase

GGT

Detecção dos genes codificantes da toxina CDT e pesquisa de fatores que influenciam a produção de hemolisinas por amostras de Campylobacter jejunide de origem avícola

Trindade, Michele Martins

January 2014

Membros termofílicos do gênero Campylobacter são reconhecidos como importantes enteropatógenos para o ser humano e animais. A grande diversidade ecológica destes microorganismos em diferentes habitats tais como: água, animais e alimentos predispõem ao aparecimento de novos fatores de virulência. Este trabalho teve por objetivo detectar os genes codificantes da Toxina Distensiva Citoletal (CDT) por meio da técnica de PCR, pesquisar a atividade de hemolisinas e a influência de soluções quelantes e de íons nesta atividade. Foram utilizadas 45 amostras de C. jejuni de origem avícolas para pesquisa de atividade hemolítica, cultivadas em Caldo Triptona de Soja (TSB). Após o crescimento bacteriano, as amostras foram semeadas em Ágar tríptico de soja (TSA) contendo 5% de sangue de ovino, equino e bovino, sendo cada sangue testado isoladamente. Para verificar a influência de agentes quelantes e solução de íons na atividade hemolítica, as amostras de C. jejuni foram cultivadas em TSB contendo separadamente os quelantes EDTA, ácido acético, soluções de íons CaCl2 , MgCl2 e FeCl3, em atmosfera de microaerofilia. Quanto à atividade de hemolisina de Campylobacter jejuni em placas de TSA – sangue, foi possível observar que houve hemólises em 48,89% das amostras quando utilizado sangue eqüino, em 40% em sangue de bovino e em 31,11% quando de ovino. Quanto à influência de agentes quelantes e íons em caldo TSB na atividade de hemolisinas em amostras de Campylobacter jejuni semeadas em placas de TSA – sangue ovino, foi observada atividade hemolítica em 26,67% quando utilizado CaCl2, 15,55% (FeCl3), 22,22% (EDTA), 11,11% (MgCl2) e apenas 2,22% (ácido acético). No tocante à atividade hemolítica, o TSA - sangue bovino apresentou 15,55% (CaCl2), 24,44% (FeCl3), 26,26% (EDTA), 20% (MgCl2) e 11,11% (ácido acético). A atividade hemolítica para o sangue equino foi de 24,44% (CaCl2), 22,22% (FeCl3), 28,89% (EDTA), 28,89% (MgCl2) e 8,89% (ácido acético). Para detecção dos genes cdtA, cdtB e cdtC através da técnica da Reação da Polimerase em Cadeia (PCR), foram utilizadas 119 amostras de C. jejuni de origem avícolas. Foi possível observar que 38% possuíam os três genes, e foram identificados somente os genes cdtA e cdtC em 19% do total de amostras, sendo que o gene cdtB foi encontrado em 14%, o gene cdtC foi observado em 12%, os genes cdtA e cdtB em somente 1%, os genes cdtB e cdtC em 1% e para cdtA em 1%. Observou-se que os resultados são dignos de atenção, pois demonstraram em amostras avícolas a presença de estirpes de C. jejuni com potencial virulento. A atividade hemolítica apresentou significativo aumento quando utilizado sangue de origem equina. A mesma foi diminuída quando utilizados agentes quelantes ou íons, nos três tipos de sangue. / Thermophilic members of the Campylobacter genus are recognized as important enteropathogenics for humans and also for other animals. The great diversity of ecological habitats in different organisms such as water, food, and animals may promote new virulence factors. This study aimed at detecting the distending cytolethal toxin (CDT) encoding genes by PCR, studying the activity of hemolysin and also the influence of chelation solutions and ions. A total of 45 samples of C. jejuni from poultry origin, grown in Tryptone Soy Broth (TSB) were used for investigating hemolytic activity. After bacterial growth, samples were plated on Tryptic Soy Agar (TSA) containing 5% sheep, equine or bovine blood, being each blood tested individually. In order to check the influence of chelation agents and ions solution on the hemolytic activity, samples of C. jejuni strains were grown in TSB containing chelation agents individually: EDTA, acetic acid, CaCl2 ion, MgCl2 and FeCl3 solutions, all in microaerophilic atmosphere. Regarding the detection of Campylobacter jejuni hemolysin activity on TSA plates, blood hemolysis were observed in 48.89 % of samples when equine blood was used; in 40% of samples when bovine blood was used and in 31.11 % when the blood used was of sheep origin. The influence of ions and chelation agents in hemolysin activity in TSB when Campylobacter jejuni was plated on TSA with sheep blood can be described as: hemolytic activity was observed at 26.67% of samples when CaCl2 was used, at 15.55 % for FeCl3, 22 22 % for EDTA, 11.11 % for MgCl2 and only 2.22% when acetic acid was used. The hemolytic activity detected when bovine blood - TSA was used indicated 15.55% for CaCl2, 24.44% for FeCl3, 26.26 % for EDTA, 20 % for MgCl2 and 11.11% for acetic acid. In terms of the hemolytic activity when equine blood was used, the results indicated 24.44% for CaCl2, 22.22 % for FeCl3, 28.89 % for EDTA, 28.89 % for MgCl2 and 8.89% for acetic acid. Finally, regarding the detection of cdtA, cdtB and cdtC through PCR, 119 samples of C. jejuni from poultry origin were used. The results indicated that all three genes were present in 38 % of the samples, whereas only two genes were identified in 19 % of samples, while the cdtB gene was singly found in 14%, the cdtC gene was independently observed in 12%, cdtA and cdtB genes together were found in 1% of the samples; the cdtB and cdtC genes associated were detected in 1%, while cdtA alone answered for 1% of detections. The results also showed the presence of C. jejuni strains with virulence potential. The hemolytic activity increased significantly when blood of equine origin was used, and that this activity was reduced when ions or chelating agents were used in combination with the three types of blood cells.

Sanidade avícola

Atividade hemolítica

Aves : Doenças

Campylobacter jejuni

PCR

Hemolytic activity

Ions

Chelants

An epidemiological study of Swedish Campylobacter jejuni isolates from humans and broilers using multilocus sequence typing

Lövström, Tora

January 2009

<p>Campylobacter jejuni is the main cause of bacterial diarrhoeal illness in developed countries, with ~7000 cases being reported each year in Sweden. C. jejuni has received growing attention since it’s recognition as a human pathogen in the 1970s, but its epidemiology is complex and much still remains unknown. There are several potential reservoirs for C. jejuni, including environmental sources as water and soil, wild and domesticated animals, particularly poultry, but also other livestock and pets. In this study 348 Swedish C. jejuni isolates from the year 2000 from humans (n = 164) and broilers (n = 184) were characterized with multilocus sequence typing (MLST) with the aim of comparing the population structures and diversity of C. jejuni between isolates from the two hosts. MLST is a method for characterization of bacterial isolates that indexes the variation in DNA sequence of multiple protein encoding housekeeping genes. A secondary aim in this study was to compare populations of C. jejuni from 11 subgroups of isolates based on location of the sampling. The overlap between the populations was analyzed numerically based on genotypes detected and with analysis of phylogeny, gene flow and molecular variation. It was shown that the population structure of C. jejuni isolates from broilers and humans show a high degree of similarity, supporting broilers as an important source of human infection. However, even though the population structure of human and broiler C. jejuni were almost genetically indistinguishable other sources of C. jejuni infections in humans cannot be ruled out since the same genotypes can be found in other sources as well. Analysis of the 11 subgroups suggested that there may be a difference in populations infecting humans in different Swedish regions, and between populations of C. jejuni in broilers from different slaughterhouses. But this could be a result of chance since most of the subgroups were small. Future studies to improve the understanding of C. jejuni epidemiology, for which MLST has proven itself as a valid method, is important to develop control strategies to prevent infection with this common cause of diarrhoeal illness.</p>

Campylobacter jejuni

multilocus sequence typing

population structure

epidemiology

Outer membrane vesicle-mediated export of virulence factors from Gram-negative bacteria

Rompikuntal, Pramod Kumar

January 2012

The Gram-negative, motile bacterium Campylobacter jejuni is a causative agent of food-borne gastroenteritis. Cytolethal distending toxin (CDT) is one of the important virulence factors for C. jejuni pathogenesis. It was not previously known how CDT is released from C. jejuni into the surrounding environment. In our study, CDT proteins were observed in the periplasmic fraction and all CDT subunits from C. jejuni were released from the bacterial cells in association with OMVs. The OMV-associated toxin caused cytolethal distending effects on tissue culture cells. Our results strongly suggest that the release of OMV-associated CDT is a route by which C. jejuni delivers all CDT toxin subunits (CdtA, CdtB, and CdtC) to the surrounding environment, including infected host tissue.The Gram-negative, motile bacterium Vibrio cholerae is primarily known as the causal organism of the severe dehydrating diarrheal disease cholera. OMVs released from non-O1 non-O139 V. cholerae (NOVC) strain V:5/04 induced an inflammatory response in human host cells. The inflammatory potential is mediated by the nucleotide-binding domain, leucine-rich repeat containing family members NOD1 and NOD2. Physiochemical analysis in conjunction with NOD1/2 reporter assays in HEK293T cells confirmed the presence of the NOD1/2 active peptidoglycan (PGN) in OMVs. Deletion of the quorum sensing master regulator HapR specifically reduced the inflammatory potential of the V:5/04 OMVs and their ability to activate NOD1 and NOD2. These findings suggest that OMVs from a NOVC strain delivered PGN to the host cells, where they elicited an immune response mediated by NOD1 and NOD2.The Gram-negative, non-motile coccobacillus Aggregatibacter actinomycetemcomitans is a natural inhabitant of the oral cavity, but the bacterium can translocate from the oral cavity into the bloodstream and thereby be transported to other regions of the body. A. actinomycetemcomitans is implicated in aggressive forms of periodontitis. The mechanism behind this aggressive periodontitis was not fully known. In addition to several virulence factors, this organism also produces CDT. We have demonstrated that OMVs released by A. actinomycetemcomitans contain several virulence factors, including CDT. We showed that OMVs delivered CDT to the host cells and that CDT was localized inside the nucleus, which led to a cytolethal distending effect on two different cell lines tested: HeLa cells and human gingival fibroblasts (HGF). These results suggest that A. actinomycetemcomitans OMVs could deliver biologically active CDT toxin into the periodontal tissue and may contribute to periodontitis.In our earlier studies, we discovered that an M6 family metalloprotease PrtV was an essential factor for V. cholerae survival from predator grazing. Pure PrtV protein effectively degraded human blood plasma components. In addition, it also showed a dose-dependent cytotoxic effect in the human intestinal HCT8 cell line. V. cholerae produces a large amount of outer membrane vesicles (OMVs) during the normal course of cell growth. OMVs are composed of periplasmic proteins, membrane lipids, lipopolysaccharides and outer membrane proteins. We showed that OMVs can transport several biologically active toxins and enzymes to the surrounding environment and ultimately into the host cells. We have initiated analysis of OMV-associated secretion of virulence factors in V. cholerae. It was observed that PrtV is secreted from V. cholerae wild type strain C6706 into the culture supernatant in association with OMVs and OMV-associated PrtV protein is biologically active and more stable than the free, soluble PrtV protease.

Outer membrane vesicles

CDT

PGN

PrtV

Campylobacter jejuni

Vibrio cholerae

Aggregatibacter actinomycetemcomitans

Identification and characterization of virulence associated factors of C. jejuni

Malik, Abdul

28 October 2010

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Campylobacter jejuni;invasion

formic acid;Motility

42

WF 200: Molekularbiologie

Development of comparative genomic fingerprinting for molecular epidemiological studies of Campylobacter jejuni

Ross, Susan, University of Lethbridge. Faculty of Arts and Science

January 2010

This thesis reports the development of Comparative Genomic Fingerprinting (CGF), a rapid genotyping method for Campylobacter jejuni that assesses the conservation status of 20 genes previously described as having high intraspecies variability based on comparative genomics studies. This novel method for genotyping C. jejuni, CGF was validated two-fold. First, by comparison to flaA restriction fragment length polymorphism analysis, and second a subset of isolates was validated using two higher resolution CGF assays assessing 35 and 119 genes. CGF was then tested in a molecular epidemiological study of C. jejuni isolated from environmental, animal and human clinical samples from southern Alberta. Reservoirs of infection, subtypes associated with higher incidence of human infection, and the persistence of prevalent subtypes in animal/environmental reservoirs were identified. This thesis demonstrates that CGF analysis is robust and can be used to rapidly assess genetic similarity of C. jejuni isolates and to detect epidemiologically relevant clonal groups. / xii, 184 leaves : ill. ; 29 cm

Molecular epidemiology

Dissertations, Academic

Colonization of the Intestinal Mucus Layer by Campylobacter jejuni

Stahl, Martin

14 May 2012

Campylobacter jejuni is a major cause of bacterial gastroenteritis in the developed world; however, many aspects of its biology remain poorly understood, including its colonization of the mucus layer lining the gastrointestinal tract. In this study, we utilized microarray transposon tracking to compile a list of 195 genes essential for the growth of C. jejuni in vitro under microaerophilic conditions. Then we characterized C. jejuni growing in an extracted intestinal mucus medium. We found that C. jejuni will grow efficiently in a medium comprised of either chick and piglet intestinal mucus, and that these media have a dramatic impact on its transcriptome. Within the genes identified as differentially expressed during growth in a mucus medium, we identified a single operon, (cj0481-cj0490), which we have subsequently characterized as being responsible for both the uptake and metabolism of L-fucose. This represents the first observation of carbohydrate metabolism by the otherwise asaccharolytic C. jejuni. We further found that the inability to utilize L-fucose puts C. jejuni at a competitive disadvantage when colonizing the piglet intestine, but not the chick cecum. Finally, we examined C. jejuni’s ability to utilize mucins as a carbon source while growing within the mucus layer. We found that despite mucins being a major source of L-fucose and amino acids within the intestine, C. jejuni has a minimal ability to degrade and utilize mucins on its own. However, close proximity to mucolytic bacteria within the microbiota of the intestine, allows for increased C. jejuni growth. Together, this paints the picture of an organism that is well adapted to survival within the mucus lining of the intestine and establishing itself as part of the intestinal microbiota.

Campylobacter jejuni

Bacteroides vulgatus

Commensal

Essential genes

Microarray

Transcriptome

Fucose

Metabolism

mucus

mucin

Der Oligosaccharyltransferase-Komplex aus Saccharomyces cerevisiae : Funktionelle Charakterisierung von Stt3 aus Hefe und seinen Homologen aus Campylobacter, Leishmania und Mensch

Hese, Katrin

January 2008

Regensburg, Univ., Diss., 2008.

N-linked glycosylation in Campylobacter jejuni and Campylobacter fetus and N-linked glycans as targets for antibody-based detection

Weaver, Danielle

January 2017

Campylobacter spp., especially C. jejuni and C. coli, are the leading cause of bacterial gastroenteritis in Europe. There is a recognised need to develop detection tools which can be performed on farms to facilitate reducing the presence of Campylobacter in poultry. A similar application could be beneficial for detection of C. fetus, a veterinary pathogen which causes significant economic loss in the cattle industry. Campylobacter species perform protein N-linked glycosylation and in C. jejuni at least 150 proteins, many of which are surface-exposed, may be modified. Therefore, the first portion of this thesis investigated the feasibility of using N-linked glycans as targets for antibody-based detection of Campylobacter species. To do this, a His-tagged N-glycoprotein was expressed and purified from C. fetus and used as immunogen to raise an antiserum termed CfNgp. The Campylobacter N-glycan reactivity of this antiserum was characterised and it was shown to react with N-glycoproteins and cells of C. fetus and other emerging Campylobacter species such as C. concisus. Immunoblotting techniques and flow cytometry were used to characterise an antiserum (CjNgp) raised against a C. jejuni N-linked glycoprotein and demonstrated that it can specifically detect cells of C. jejuni, C. coli and other emerging Campylobacter species found in poulty. This thesis also describes the investigation of the relatively uncharacterised C. fetus N-linked glycosylation system. Functional analysis of C. fetus predicted glycosyltransferases was acheived by developing glycocompetent E. coli containing a hybrid C. jejuni/C. fetus pgl system. The N-glycan structures biosynthesised were analysed using mass spectrometry and this novel approach discovered the activity of two C. fetus glycosyltransferase enzymes. Finally, this work used a bioinformatics pipeline to produce a C. fetus predicted N-linked glycoproteome and experimentally verified a newly identified N-linked glycoprotein. This pipeline was also applied to investigate the putative conservation of N-linked glycoproteins throughout the Campylobacter genus and highlighted ‘core’ N-linked glycoproteins which are key targets for experimental investigation. Overall, this work demonstrates that Campylobacter N-linked glycans are attractive targets for antibody-based detection, expands our knowledge of C. fetus N-linked glycosylation and contributes to the broader understanding of this intriguing aspect of Campylobacter biology.

Detecção dos genes codificantes da toxina CDT e pesquisa de fatores que influenciam a produção de hemolisinas por amostras de Campylobacter jejunide de origem avícola

Trindade, Michele Martins

January 2014

Membros termofílicos do gênero Campylobacter são reconhecidos como importantes enteropatógenos para o ser humano e animais. A grande diversidade ecológica destes microorganismos em diferentes habitats tais como: água, animais e alimentos predispõem ao aparecimento de novos fatores de virulência. Este trabalho teve por objetivo detectar os genes codificantes da Toxina Distensiva Citoletal (CDT) por meio da técnica de PCR, pesquisar a atividade de hemolisinas e a influência de soluções quelantes e de íons nesta atividade. Foram utilizadas 45 amostras de C. jejuni de origem avícolas para pesquisa de atividade hemolítica, cultivadas em Caldo Triptona de Soja (TSB). Após o crescimento bacteriano, as amostras foram semeadas em Ágar tríptico de soja (TSA) contendo 5% de sangue de ovino, equino e bovino, sendo cada sangue testado isoladamente. Para verificar a influência de agentes quelantes e solução de íons na atividade hemolítica, as amostras de C. jejuni foram cultivadas em TSB contendo separadamente os quelantes EDTA, ácido acético, soluções de íons CaCl2 , MgCl2 e FeCl3, em atmosfera de microaerofilia. Quanto à atividade de hemolisina de Campylobacter jejuni em placas de TSA – sangue, foi possível observar que houve hemólises em 48,89% das amostras quando utilizado sangue eqüino, em 40% em sangue de bovino e em 31,11% quando de ovino. Quanto à influência de agentes quelantes e íons em caldo TSB na atividade de hemolisinas em amostras de Campylobacter jejuni semeadas em placas de TSA – sangue ovino, foi observada atividade hemolítica em 26,67% quando utilizado CaCl2, 15,55% (FeCl3), 22,22% (EDTA), 11,11% (MgCl2) e apenas 2,22% (ácido acético). No tocante à atividade hemolítica, o TSA - sangue bovino apresentou 15,55% (CaCl2), 24,44% (FeCl3), 26,26% (EDTA), 20% (MgCl2) e 11,11% (ácido acético). A atividade hemolítica para o sangue equino foi de 24,44% (CaCl2), 22,22% (FeCl3), 28,89% (EDTA), 28,89% (MgCl2) e 8,89% (ácido acético). Para detecção dos genes cdtA, cdtB e cdtC através da técnica da Reação da Polimerase em Cadeia (PCR), foram utilizadas 119 amostras de C. jejuni de origem avícolas. Foi possível observar que 38% possuíam os três genes, e foram identificados somente os genes cdtA e cdtC em 19% do total de amostras, sendo que o gene cdtB foi encontrado em 14%, o gene cdtC foi observado em 12%, os genes cdtA e cdtB em somente 1%, os genes cdtB e cdtC em 1% e para cdtA em 1%. Observou-se que os resultados são dignos de atenção, pois demonstraram em amostras avícolas a presença de estirpes de C. jejuni com potencial virulento. A atividade hemolítica apresentou significativo aumento quando utilizado sangue de origem equina. A mesma foi diminuída quando utilizados agentes quelantes ou íons, nos três tipos de sangue. / Thermophilic members of the Campylobacter genus are recognized as important enteropathogenics for humans and also for other animals. The great diversity of ecological habitats in different organisms such as water, food, and animals may promote new virulence factors. This study aimed at detecting the distending cytolethal toxin (CDT) encoding genes by PCR, studying the activity of hemolysin and also the influence of chelation solutions and ions. A total of 45 samples of C. jejuni from poultry origin, grown in Tryptone Soy Broth (TSB) were used for investigating hemolytic activity. After bacterial growth, samples were plated on Tryptic Soy Agar (TSA) containing 5% sheep, equine or bovine blood, being each blood tested individually. In order to check the influence of chelation agents and ions solution on the hemolytic activity, samples of C. jejuni strains were grown in TSB containing chelation agents individually: EDTA, acetic acid, CaCl2 ion, MgCl2 and FeCl3 solutions, all in microaerophilic atmosphere. Regarding the detection of Campylobacter jejuni hemolysin activity on TSA plates, blood hemolysis were observed in 48.89 % of samples when equine blood was used; in 40% of samples when bovine blood was used and in 31.11 % when the blood used was of sheep origin. The influence of ions and chelation agents in hemolysin activity in TSB when Campylobacter jejuni was plated on TSA with sheep blood can be described as: hemolytic activity was observed at 26.67% of samples when CaCl2 was used, at 15.55 % for FeCl3, 22 22 % for EDTA, 11.11 % for MgCl2 and only 2.22% when acetic acid was used. The hemolytic activity detected when bovine blood - TSA was used indicated 15.55% for CaCl2, 24.44% for FeCl3, 26.26 % for EDTA, 20 % for MgCl2 and 11.11% for acetic acid. In terms of the hemolytic activity when equine blood was used, the results indicated 24.44% for CaCl2, 22.22 % for FeCl3, 28.89 % for EDTA, 28.89 % for MgCl2 and 8.89% for acetic acid. Finally, regarding the detection of cdtA, cdtB and cdtC through PCR, 119 samples of C. jejuni from poultry origin were used. The results indicated that all three genes were present in 38 % of the samples, whereas only two genes were identified in 19 % of samples, while the cdtB gene was singly found in 14%, the cdtC gene was independently observed in 12%, cdtA and cdtB genes together were found in 1% of the samples; the cdtB and cdtC genes associated were detected in 1%, while cdtA alone answered for 1% of detections. The results also showed the presence of C. jejuni strains with virulence potential. The hemolytic activity increased significantly when blood of equine origin was used, and that this activity was reduced when ions or chelating agents were used in combination with the three types of blood cells.

Sanidade avícola

Atividade hemolítica

Aves : Doenças

Campylobacter jejuni

PCR

Hemolytic activity

Ions

Chelants