Global ETD Search

1	The immunoglobulin M-degrading enzyme of Streptococcus suis, IdeSsuis, is involved in complement evasion Seele, Jana, Beineke, Andreas, Hillermann, Lena-Maria, Jaschok-Kentner, Beate, von Pawel-Rammingen, Ulrich, Valentin-Weigand, Peter, Baums, Christoph Georg 19 April 2015 (has links) (PDF) Streptococcus (S.) suis is one of the most important pathogens in pigs causing meningitis, arthritis, endocarditis and serositis. Furthermore, it is also an emerging zoonotic agent. In our previous work we identified a highly specific IgM protease in S. suis, designated IdeSsuis. The objective of this study was to characterize the function of IdeSsuis in the host-pathogen interaction. Edman-sequencing revealed that IdeSsuis cleaves the heavy chain of the IgM molecule between constant domain 2 and 3. As the C1q binding motif is located in the C3 domain, we hypothesized that IdeSsuis is involved in complement evasion. Complement-mediated hemolysis induced by porcine hyperimmune sera containing erythrocyte-specific IgM was abrogated by treatment of these sera with recombinant IdeSsuis. Furthermore, expression of IdeSsuis reduced IgM-triggered complement deposition on the bacterial surface. An infection experiment of prime-vaccinated growing piglets suggested attenuation in the virulence of the mutant 10ΔideSsuis. Bactericidal assays confirmed a positive effect of IdeSsuis expression on bacterial survival in porcine blood in the presence of high titers of specific IgM. In conclusion, this study demonstrates that IdeSsuis is a novel complement evasion factor, which is important for bacterial survival in porcine blood during the early adaptive (IgM-dominated) immune response. Streptococcus (S.) suis Erreger Schweine Streptococcus (S.) suis pathogens pigs ddc:636
2	Burden and epidemiological characterisations of Streptococcus suis in Chiang Mai, Thailand Thongsawad, Sanigan January 2017 (has links) The burden of Streptococcus suis infection in humans is increasing worldwide. In Thailand, S. suis is the second most commonly recorded zoonosis. The principal sources of human S. suis infection are pig and pork products. A detailed understanding of the epidemiological characteristics of S. suis and the burden of the disease may help improve prevention and control policy to reduce the burden of this bacterial infection. The work presented in this thesis focuses on human outbreaks of S. suis in Chiang Mai, Thailand, in humans and backyard pigs. This thesis examined the characteristics of previous outbreaks of S. suis in humans and calculated the incidence, disease burden and the associated economic burden of S. suis infection in Chiang Mai. The backyard pig system is important for S. suis transmission and this thesis examined the characteristics of the backyard pig production system in Chaing Mai and examined the prevalence and risk factor for S. suis infection in pigs. Finally, to examine transmission of S. suis, isolates collected during this study were identified and subject to molecular characterization. A retrospective analysis of surveillance data for S. suis cases in Chiang Mai between 2005 to 2014 highlighted the annual incidence rate over this ten year period of 15.52 per 1,000,000 population, 6.5 times higher than for the rest of Thailand (2.37 per 1,000,000 population). The case fatality rate was high at 10.12%. The impact on human health of S. suis infection was derived from surveillance data for the year 2013. The health burden measured in term of Disability Adjusted Life Years (DALYs) was estimated at 7.41 per 100,000 population. Most of the health burden (98.28%) was in adults aged 15-64 years. Males had 3.5 times the health burden of females. The consequences of hearing loss and deafness had significant impacts on affected individuals quality of life. The economic impact of S. suis outbreaks in Chiang Mai was between 2013 and 2014 was estimated from interview data. Most patients were covered for their health costs by the national health security scheme, with expenditure due to S. suis on average being 37,955 baht (£759) per patient. Out of pocket expenses for individuals and their families averaged 5,198 baht (£104) per patient. An epidemiological survey of backyard pig production facilities was undertaken in Chiang Mai province where there was a reported high incidence of S. suis cases in humans occurred each year. Most holdings had between one to five pigs and all holdings shared similar characteristics and management practices. The prevalence of S. suis was in pigs was 4.8% (95%CI=2.2-7.4%). Pigs living in larger spaces (≥ 1.2 m2) showed a lower risk for S. suis infection (OR = 4.35, 95% CI = 1.07-25.21). Examination of the isolates from this study revealed a diversity of serotypes. Only one isolate was identified as S. suis serotype 9. The rest did not match any common serotypes for S. suis (1, 2, 7 or 9) and known virulent strains were not identified. Twelve independent sequence profiles were determined by MLST, of which, 11 were novel. Backyard pigs were found to be commonly infected with a range of previously unidentified S. suis and may be a significant reservoir of human infection.
3	The immunoglobulin M-degrading enzyme of Streptococcus suis, IdeSsuis, is involved in complement evasion Seele, Jana, Beineke, Andreas, Hillermann, Lena-Maria, Jaschok-Kentner, Beate, von Pawel-Rammingen, Ulrich, Valentin-Weigand, Peter, Baums, Christoph Georg January 2015 (has links) Streptococcus (S.) suis is one of the most important pathogens in pigs causing meningitis, arthritis, endocarditis and serositis. Furthermore, it is also an emerging zoonotic agent. In our previous work we identified a highly specific IgM protease in S. suis, designated IdeSsuis. The objective of this study was to characterize the function of IdeSsuis in the host-pathogen interaction. Edman-sequencing revealed that IdeSsuis cleaves the heavy chain of the IgM molecule between constant domain 2 and 3. As the C1q binding motif is located in the C3 domain, we hypothesized that IdeSsuis is involved in complement evasion. Complement-mediated hemolysis induced by porcine hyperimmune sera containing erythrocyte-specific IgM was abrogated by treatment of these sera with recombinant IdeSsuis. Furthermore, expression of IdeSsuis reduced IgM-triggered complement deposition on the bacterial surface. An infection experiment of prime-vaccinated growing piglets suggested attenuation in the virulence of the mutant 10ΔideSsuis. Bactericidal assays confirmed a positive effect of IdeSsuis expression on bacterial survival in porcine blood in the presence of high titers of specific IgM. In conclusion, this study demonstrates that IdeSsuis is a novel complement evasion factor, which is important for bacterial survival in porcine blood during the early adaptive (IgM-dominated) immune response. info:eu-repo/classification/ddc/636 ddc:636 Streptococcus (S.) suis, pathogens, pigs
4	Identification and characterization of a new adhesin involved in the binding of Streptococcus suis to the extracellular matrix proteins Esgleas Izquierdo, Miriam January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal. S. suis S. Suis MEC ECM Fibronectine Fibronectin Enolase Enolase IgG IgG HSP HSP Adhésion Adhesion Invasion Invasion Cellules endothéliales Endothelial cells Vaccin Vaccine
5	Identification and characterization of a new adhesin involved in the binding of Streptococcus suis to the extracellular matrix proteins Esgleas Izquierdo, Miriam January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal S. suis S. Suis MEC ECM Fibronectine Fibronectin Enolase Enolase IgG IgG HSP HSP Adhésion Adhesion Invasion Invasion Cellules endothéliales Endothelial cells Vaccin Vaccine
6	Étude des interactions entre Streptococcus suis et des neutrophiles porcins Chabot-Roy, Geneviève January 2005 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. S. suis Neutrophiles Cytotoxicité Effet bactéricide Phagocytose Capsule polysaccharidique Suilysine Anticorps Complément
7	Streptococcus suis capsular type 2 interactions with phagocytic cells Segura, Mariela January 2002 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. S. suis Cellules phagocytaires Phagocytose Adhésion Cytotoxicité Induction de cytokines Capsule polysaccharidique Suilysine Paroi cellulaire Méningite
8	Molecular characterization of XerS/difSL site-specific recombination system in Streptococcus suis Castillo Martinez, Fabio Andres 04 1900 (has links) L'état circulaire du chromosome bactérien pose un problème particulier lors de la réplication. Un nombre impair d'événements de recombinaison homologue donne des chromosomes dimères concaténés qui ne peuvent pas être divisés en cellules filles. Pour résoudre ce problème, les bactéries ont mis au point un mécanisme de résolution des dimères basé sur un système de recombinaison spécifique au site. Ceci est effectué par le système Xer/dif. Dans ce système, les protéines Xer effectuent une réaction de recombinaison dans le site dif au niveau du septum cellulaire immédiatement avant la division cellulaire. Dans la plupart des bactéries, cette réaction est effectuée par deux recombinases, XerC et XerD. Cependant, Streptococcus suis, un agent pathogène zoonotique important utilise un système de recombinaison différent, constitué d'une seule enzyme recombinase appelée XerS, qui catalyse la réaction de recombinaison dans un site dif non conventionnel. Pour caractériser le mode de clivage de XerS, des expériences EMSA ont été réalisées en utilisant des fragments de PCR marqués par HEX et des "suicide substrates". Nos données suggèrent que 1.) XerS est capable de lier la séquence entière de difSL; 2.) XerS lie plus efficacement le côté gauche des mutants difSL incomplets que le côté droit; 3.) XerS coupe les brins supérieur et inférieur du site difSL, avec une réaction plus efficace au bas. 4.) Modifications des nucléotides de la région la plus externe ou de la région centrale changent les préférences de clivage. 5.) XerS n'a montré aucune activité spécifique sur un autre site dif non conventionnel des Firmicutes, 6.) XerS interagit avec la sous-unité FtsK-y. L'ensemble des résultats présentés permet de mieux comprendre le fonctionnement de la recombinaison XerS dans le système de recombinase unique de Streptococcus et comment cette recombinaison est régulée par des facteurs de l'hôte. / The circular state of the bacterial chromosome presents a specific problem during replication. An odd number of homologous recombination events results in concatenated dimer chromosomes that cannot be partitioned into daughter cells. To solve this problem, bacteria have developed a mechanism of dimer resolution based on site-specific recombination system. This is performed by the Xer/dif system. In this system, the Xer proteins perform a recombination reaction in the dif site at the cell septum immediately prior to cell division. In most bacteria this reaction is performed by two recombinases, XerC and XerD. However, an important zoonotic pathogen; Streptococcus suis harbors a different recombination system, composed by a single recombinase enzyme called XerS, that catalyzes the recombination reaction in an unconventional dif site; difSL. A region characterized by two imperfect inverted repeat regions that flank a central region of 11 bp.To characterize the mode of cleavage of XerS, EMSA experiments were performed by using HEX-labelled PCR fragments and “nicked suicide substrates”. Our data suggests that; 1.) XerS is able to bind the entire difSL sequence; 2.) XerS binds more efficiently the left half side on incomplete difSL mutants than the right half side; 3.) XerS cleaves both the top and bottom strands of the difSL site, with a more efficient reaction at the bottom strand; 4.) Nucleotides at the outermost region of a T rich region seem to be determinant for binding selectivity and modifications of the extra spacing between the inverted repeat arms as well as length modifications of the central region change cleavage preference. 5.) XerS did not show any specific activity on another unconventional dif site in Firmicutes, as tested on difH. 6.) XerS interacts with FtsK-y subunit. This research aims to understand how XerS recombination works in the single recombinase system of Streptococcus and how this recombination is regulated by host factors. Exploration of these recombinases will provide a better understanding of the mechanisms of DNA exchange and genome stability in bacteria. It can also increase our knowledge of the evolution and speciation of recombinogenic bacteria. Site-specific recombination XerS Tyrosine recombinases XerC/XerD S. suis dif sites Dimerization. Recombinaison specifique du site Dimérisation.
9	Analysis of Porcine Pro- and Anti-Inflammatory Cytokine Induction by S. suis In Vivo and In Vitro Hohnstein, Florian S., Meurer, Marita, de Buhr, Nicole, von Köckritz-Blickwede, Maren, Baums, Christoph G., Alber, Gottfried, Schütze, Nicole 21 April 2023 (has links) Weaning piglets are susceptible to the invasive Streptococcus (S.) suis infection, which can result in septicemia. The aim of this study was to investigate the cytokine profile induced upon S. suis infection of blood, to determine the cellular sources of those cytokines, and to study the potential effects of the induced cytokines on bacterial killing. We measured TNF-α, IL-6, IFN-γ, IL-17A and IL-10 after an experimental intravenous infection with S. suis serotype 2 in vivo, and analyzed whole blood, peripheral blood mononuclear cells (PBMC) and separated leukocytes to identify the cytokine-producing cell type(s). In addition, we used a reconstituted whole blood assay to investigate the effect of TNF-α on bacterial killing in the presence of different S. suis-specific IgG levels. An increase in IL-6 and IL-10, but not in IFN-γ or IL-17A, was observed in two of three piglets with pronounced bacteremia 16 to 20 h after infection, but not in piglets with controlled bacteremia. Our results confirmed previous findings that S. suis induces TNF-α and IL-6 and could demonstrate that TNF-α is produced by monocytes in vitro. We further found that IL-10 induction resulted in reduced secretion of TNF-α and IL-6. Rapid induction of TNF-α was, however, not crucial for in vitro bacterial killing, not even in the absence of specific IgG. info:eu-repo/classification/ddc/570 ddc:570
10	Streptococcal immunoglobulin degrading enzymes of the IdeS and IgdE family Spoerry, Christian January 2017 (has links) Bacteria of the genus Streptococcus are common asymptomatic colonisers of humans and animals. As opportunistic pathogens they can however, depending on their host’s immune status and other circumstances, cause mild to very severe infections. Streptococci are highly intertwined with specific host species, but can also cause zoonosis or anthroponosis in more uncommon hosts. Prolonged and reoccurring infections require immune evasion strategies to circumvent detection and eradication by the host’s immune defence. A substantial part of the immune defence against bacterial pathogens is mediated by immunoglobulins. This thesis is based on work to identify and characterise immunoglobulin degrading enzymes secreted by different Streptococcus species as a means to sabotage and evade antibody-mediated immune responses. Stoichiometric and kinetic analysis of the IgG degrading enzyme IdeS from the important human pathogen S. pyogenes revealed that IdeS cleaves IgG, opposed to previous publications, as a monomer following classical Michaelis-Menten kinetics. The IdeS homologue of S. suis, IdeSsuis, did however not cleave IgG, but was highly specific fo rporcine IgM. S. suis was found to possess yet another protease, IgdE, capable of cleaving porcine IgG. Both of these proteases were shown to promote increased bacterial survival in porcine blood during certain conditions. IgdE is the founding member of a novel cysteine protease family (C113). Novel streptococcal members of this protease family were shown to specifically degrade certain IgG subtypes of the respective Streptococcus species’ main host. The observed substrate specificity of IgdE family proteases reflects the host tropism of these Streptococcus species, thereby giving insights into host-pathogen co-evolution. The abundance of immunoglobulin degrading enzymes among Streptococcus species indicates the importance of evasion from the antibody mediated immune responses for streptococci. These novel identified immunoglobulin degrading enzymes of the IdeS and IgdE protease families are potential valid vaccine targets and could also be of biotechnological use. Streptococcus S. pyogenes S. agalactiae S. suis S. porcinus S. pseudoporcinus S. equi subsp. zooepidemicus protease immunoglobulin immune evasion IdeS IgdE Cell and Molecular Biology Cell- och molekylärbiologi Biochemistry and Molecular Biology Biokemi och molekylärbiologi

Search results