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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Etude in vitro des propriétés probiotiques de bactéries du genre Bacillus : Interaction avec l’hôte et effets de l’association avec un prébiotique / In vitro study of probiotic Bacillus strains : interaction with the host and effect of association with a prébiotic

Villeger, Romain 12 December 2014 (has links)
Les probiotiques sont des microorganismes vivants qui, lorsqu’ils sont ingérés en quantité adéquate, peuvent exercer des propriétés bénéfiques sur la santé de l’hôte. Les souches de Bacillus utilisées en tant que probiotiques ne sont pas colonisatrices du tractus intestinal, mais sont des résidents transitoires du microbiote. Ce travail fait l’investigation in vitro de l’association, qualifiée de synbiotique, entre une souche probiotique de Bacillus subtilis et une source carbonée prébiotique, composé alimentaire peu digéré par les enzymes intestinales mais utilisable par les bactéries dans l’intestin. L’étude de cette association met en évidence la capacité de la souche à utiliser les isomaltooligosaccharides (IMOS) prébiotiques comme unique substrat carboné. L’effet positif de ce substrat sur la tolérance à la bile de la souche a été démontré in vitro. Les résultats d’une analyse protéomique faisant l’étude des enzymes clés impliquées dans le métabolisme des IMOS, ainsi que d’autres biomarqueurs d’intérêt probiotique, sont en cours d’exploitation. Ce travail préliminaire d’investigation de l’association synbiotique entre les IMOS prébiotiques et la souche probiotique B. subtilis, aboutira à des essais in vivo. Les effets bénéfiques des probiotiques du genre Bacillus, notamment au niveau de la modulation du système immunitaire, résultent de l’interaction entre les molécules de la surface bactérienne et les cellules de l’intestin. Les mécanismes moléculaires à l’origine de l’immunomodulation sont mal connus, alors que leur compréhension est nécessaire à l’optimisation de l’utilisation du probiotique. Un deuxième volet de ce travail concerne la comparaison des structures d’entités moléculaires de surface de trois Bacilli probiotiques, les acides lipotéichoïques (LTAs), et leurs activités immunologiques respectives. Une étude structurale des LTAs par des méthodes biochimiques et par RMN a permis de mettre en évidence la diversité structurale au sein du même genre Bacillus. Le rôle clé de la D-alanine dans l’activité biologique de ces antigènes bactériens a été démontré. / Probiotics are live microorganisms, which when administered in adequate amounts confer a health benefit on the host. Bacillus probiotic strains are not able to colonize the gut, and are considered as transient residents of the microbiota. Prebiotic are non-digestible food ingredients that could stimulate growth of bacteria in the gut. This work investigates the in vitro effect of a prebiotic isomaltooligosaccharide (IMOS) on the growth of a probiotic strain Bacillus subtilis. This study highlights the ability of the strain to use IMOS as unique carbon source. A comparative proteomic analysis investigates the main enzymes implicated in the prebiotic metabolism, and biomarkers possibly involved in probiotic effects. This preliminary work, which studies the synbiotic association between a probiotic and a prebiotic, will lead to in vivo assays. Beneficial effects of probiotic Bacilli, mainly modulation of intestinal immune system, result from interaction between bacterial cell-wall molecules and intestinal cells. The molecular origin of immunomodulatory mechanisms are poorly understood, while understanding is needed to optimize the use of probiotics. A second part of this work consists in comparing the structure of a molecular cell-wall component named lipoteichoic acids (LTA) from three Bacillus probiotic, a molecular cell-wall component of Gram positive bacteria, and their immunological activity. A structural study, using biochemical determinations and NMR spectroscopic analysis, highlights the structural diversity between LTAs from different Bacillus species. The key role of D-alanine substituents in the biological activity of these bacterial antigens has been demonstrated.
2

d-Alanylation of Lipoteichoic Acids in Streptococcus suis Reduces Association With Leukocytes in Porcine Blood

Öhlmann, Sophie, Krieger, Ann-Kathrin, Gisch, Nicolas, Meurer, Marita, de Buhr, Nicole, von Köckritz-Blickwede, Maren, Schütze, Nicole, Baums, Christoph Georg 07 June 2023 (has links)
Streptococcus suis (S. suis) is a common swine pathogen but also poses a threat to human health in causing meningitis and severe cases of streptococcal toxic shock-like syndrome (STSLS). Therefore, it is crucial to understand how S. suis interacts with the host immune system during bacteremia. As S. suis has the ability to introduce d-alanine into its lipoteichoic acids (LTAs), we investigated the working hypothesis that cell wall modification by LTA d-alanylation influences the interaction of S. suis with porcine blood immune cells. We created an isogenic mutant of S. suis strain 10 by in-frame deletion of the d-alanine d-alanyl carrier ligase (DltA). d-alanylation of LTAs was associated with reduced phagocytosis of S. suis by porcine granulocytes, reduced deposition of complement factor C3 on the bacterial surface, increased hydrophobicity of streptococci, and increased resistance to cationic antimicrobial peptides (CAMPs). At the same time, survival of S. suis was not significantly increased by LTA d-alanylation in whole blood of conventional piglets with specific IgG. However, we found a distinct cytokine pattern as IL-1β but not tumor necrosis factor (TNF)-α levels were significantly reduced in blood infected with the ΔdltA mutant. In contrast to TNF-α, activation and secretion of IL-1β are inflammasome-dependent, suggesting a possible influence of LTA d-alanylation on inflammasome regulation. Especially in the absence of specific antibodies, the association of S. suis with porcine monocytes was reduced by d-alanylation of its LTAs. This dltA-dependent phenotype was also observed with a non-encapsulated dltA double mutant indicating that it is independent of capsular polysaccharides. High antibody levels caused high levels of S. suis—monocyte—association followed by inflammatory cell death and strong production of both IL-1β and TNF-α, while the influence of LTA d-alanylation of the streptococci became less visible. In summary, the results of this study expand previous findings on d-alanylation of LTAs in S. suis and suggest that this pathogen specifically modulates association with blood leukocytes through this modification of its surface.
3

Pathogenerkennung durch das Immunsystem

Opitz, Bastian 17 December 2001 (has links)
Die angeborene Immunität ist in der Lage, Pathogene schon beim erstmaligen Eindringen zu erkennen und zu bekämpfen. Haupteffektoren der schnellen, angeborenen Immunantwort sind Makrophagen und polymorphkernige neutrophile Granulozyten. Diese erkennen und phagozytieren Pathogene und koordinieren die weitere Immunantwort durch die Freisetzung von inflammatorischen Mediatoren und Zytokinen. Die Erkennung mikrobieller Bestandteile, wie Lipopolysaccharid (LPS) Gram-negativer Bakterien bzw. Peptidoglykan (PG) und Lipoteichonsäuren (LTA) Gram-positiver Bakterien, führt zur Aktivierung von unterschiedlichen Proteinkinasen, des Transkriptionsfaktors NF-(B und zur Freisetzung von Zytokinen. Mitglieder der Toll-Proteinfamilie, sogenannte Toll-like-Rezeptoren (TLR), wurden kürzlich als Rezeptoren auf Immunzellen identifiziert, die für die Erkennung solcher mikrobieller Bestandteile verantwortlich sind. Während TLR-4 der LPS-Erkennung dient, und TLR-2 und -6 verschiedene Liganden von Gram-positiven Bakterien binden, blieb die Frage der Erkennung von LTA und verwandten Glykolipiden strittig. Sowohl TLR-2 als auch TLR-4 wurden für diese Rolle diskutiert. Zielsetzung dieser Arbeit war, die Rolle von TLRs in der LTA- und Glykolipid-Erkennung zu untersuchten. Glykolipide von zwei eng verwandten Treponemen-Spezies, T. maltophilum (TM) und T. brennaborense (TB), sowie neuartig aufgereinigte Lipoteichonsäuren von Staphylococcus aureus (SA) und Bacillus subtilis (BS) wurden eingesetzt, um die nukleäre Translokation von NF-(B in verschiedenen Zellsystemen zu induzieren. Diese Zellstimulationsexperimente wurden mit verschiedenen TLR-2-negativen Zellinien sowie mit Peritonealexsudatzellen TLR-4-defizienter C3H/HeJ-Mäuse durchgeführt. Weitere Informationen lieferten TLR-2-Überexpressions-Experimente sowie Zellstimulationen unter Verwendung von anti-TLR-4-Antikörpern. Die Aktivierung von NF-(B wurde anhand von Gelshifts nachgewiesen. Mit der Überexpression von dominant-negativen Mutanten verschiedener Moleküle der Signalkaskade, mit Kinase-Hemmstoffen und mit Western Blots wurden die intrazellulären Signaltransduktionswege untersucht. Für Glykolipide von T. maltophilum und beide verwendeten Lipoteichonsäuren ließ sich eine klare TLR-2-Abhängigkeit in der Aktivierung von NF-(B und der Induktion von proinflammatorischen Zytokinen zeigen. Die Glykolipide von T. brennaborense hingegen waren überraschender Weise gleichzeitig auch TLR-4-Liganden. Beide untersuchten Glykolipide sowie beide LTAs aktivierten einen Signalweg unter Einbeziehung des Adaptermoleküls MyD88 und der NF-(B-induzierenden Kinase (NIK). Des weiteren konnte der Einfluß der MAP-Kinasen p42/44 und p38 auf die Treponema-Glykolipid- und LPS-induzierte TNF-(-Ausschüttung dargestellt werden. Zusammenfassend zeigen diese Ergebnisse, daß TLR-2 der Hauptrezeptor von Lipoteichonsäuren ist, und TLR-2 und -4 beide Rezeptoren der Treponema-Glykolipide sein können. Diese Ergebnisse sollten dazu beitragen, die molekularen Grundlagen der Reaktionen des Immunsystems auf Gram-positive Bakterien und Treponemen zu verstehen. / The innate immune response to microbial pathogens is able to protect the host after a first pathogen contact. This immediate immune response is largely mediated by macrophages and neutrophils. They recognize and phagocytose pathogens, and coordinate host responses by secreting inflammatory mediators, such as cytokines. The recognition of lipopolysaccharide (LPS) of Gram-negative bacteria, or peptidoglycan (PG) and lipoteichoic acids (LTAs) of Gram-positive bacteria leads to the induction of protein-kinases, the transcription factor NF-(B, and subsequently the release of proinflammatory cytokines. Recently, members of the Toll-protein-family, the so-called Toll-like receptors (TLRs) have been found to be involved in immune cell activation by microbial products. While TLR-4 has been identified as the transmembrane signal transducer for LPS, and TLR-2 and -6 for different ligands originating from Gram-positive bacteria, the molecular basis of recognition of lipoteichoic acids and related glycolipids has not been completely understood: Both, TLR-4 and -2 have been postulated as receptors. In order to determine the role of TLRs in immune cell activation by Treponema glycolipids and LTAs experiments involving TLR-2-negative cell lines, macrophages from TLR-4-deficient C3H/HeJ-mice, cells overexpression TLR-2, and inhibitory TLR-4 antibodies were performed. The induction of NF-(B was assessed by electrophoretic mobility shift assays. Glycolipids of two related Treponema species, T. maltophilum (TM) and T. brennaborense (TB), and LTAs from Staphylococcus aureus (SA) and Bacillus subtilis (BS) were investigated for induction of nuclear translocation of NF-(B in different cell systems. Glycolipids from T. maltophilum and both LTAs studied revealed TLR-2-dependency in induction of NF-(B and proinflammatory cytokines. Surprisingly, glycolipids from T. brennaborense were found to be TLR-4-ligands. Furthermore an involvement of the signaling molecules MyD88 and NIK in cell stimulation by LTAs and glycolipids was revealed by dominant-negative overexpression experiments. The induction of TNF-( by Treponema glycolipids furthermore was dependent on activation of MAP kinases p42/44 and p38, as indicated by specific kinase inhibitors. Tyrosinephosporylation of the p42/44 kinase induced by Treponema glycolipids were detected by western blots. In summary, the results presented here indicate that TLR-2 is the main receptor for LTAs. Both TLR-2 and -4 serve as receptors for Treponema glycolipids. These results may potentially contribute to explain immune responses to Gram-positive bacteria and treponemes.
4

Toll-like receptor 2 (TLR2) and TLR4 signaling in the innate response against bacterial components

Liljeroos, M. (Mari) 03 June 2008 (has links)
Abstract Toll-like receptors (TLRs) are transmembrane proteins involved in the recognition of specific microbial structures and thus the activation of signaling cascades of innate immunity. Regulation of the innate immune response is a complex biological process involving the combined synergistic and antagonistic effects of distinct signaling mediators. Although TLR signaling has been widely studied in recent years, there remain many unexplored unique features of each TLR signaling pathway. The present study evaluated the activation and regulation of TLR4 and TLR2 signaling with the aim of better understanding the molecular mechanisms that control these inflammatory signaling pathways. In the present study, the signal transduction mechanisms of TLR4 and TLR2 in response to Escherichia coli LPS and Staphylococcus aureus LTA were evaluated in mouse macrophages. The inductions, interactions, and activations of the signaling molecules and mediators in the TLR pathways were studied by using several molecular biology and protein chemistry methods. In addition, the role of TLR4 and TLR2 in the regulation of the hepatic inflammatory reaction during endotoxemia was studied. Mouse macrophages were found to induce central proinflammatory mediators in response to LPS and LTA stimulation. Specific roles for PI 3-kinase and Btk were described. These kinases were found to be activated by LPS and LTA; moreover, PI 3-kinase and Btk were found to form specific interactions with TLRs and their intracellular signaling mediators. In addition, a unique IRF2 signaling pathway for LTA-induced TLR2 was found, resulting in the activation of signal transducers and activators of transcription (Stats) and IFN-α secretion. The secreted IFN-α was shown to regulate the LTA-induced inflammatory responses, thereby combining the LTA-induced IRF proteins into NF-κB pathway. The present study provides insight into the signal transduction mechanisms of TLRs. The understanding of these molecular mechanisms that control the activation of TLR signaling cascades will in the future help to predict predisposition and outcome in infectious diseases, and to control the course of disease at an earlier stage. / Tiivistelmä Toll:n kaltaiset reseptorit (TLR) ovat solukalvon proteiineja, jotka tunnistavat taudinaiheuttajien eli patogeenien spesifisiä rakenteita johtaen elimistön puolustusjärjestelmän, immuniteetin, aktivoitumiseen. Immuniteetin säätely on monimutkainen biologinen prosessi, joka tapahtuu kudosten, solujen ja erilaisten synnynnäiseen immuniteettiin liittyvien molekyylien vuorovaikutuksina. Tulehdusvasteen säätelyssä tasapaino positiivisten ja negatiivisten säätelysignaalien välillä on erittäin tärkeää, jotta autoimmuunisairauksien, akuuttien tai kroonisten tulehdusten sekä infektiosairauksien synty voitaisiin välttää. Tämän tutkimuksen tavoitteena oli saada lisätietoa TLR2 ja TLR4 proteiinien säätelemistä signaalireiteistä, niiden vasteista tiettyjä patogeenirakenteita vastaan ja ymmärtää paremmin synnynnäisen immuniteetin puolustusmekanismeja. Patogeenirakenteiden aiheuttamaa tulehdusvastetta tutkittiin pääosin soluviljelymallissa. Lisäksi selvitettiin immuunivasteen luonnetta fysiologisessa kokonaisuudessa ja sen korrelaatiota solutasolla nähtyihin vasteisiin käyttäen in vivo hiirimallia. Tutkimus tehtiin käyttäen useita molekyylibiologian ja proteiinikemian menetelmiä proteiini- ja mRNA-ekspressioiden sekä proteiini-interaktioiden tutkimiseen ja erilaisten aktiivisuuksien määrityksiin. Tulehdusvastetta tutkittiin etenkin sytokiinivastetta määrittämällä ja signaaliketjujen toimintaa analysoitiin estämällä spesifisesti niiden toimintaa. Tarkoituksena oli selvittää, mitkä tekijät ovat välttämättömiä kyseisten tulehdusta aiheuttavien bakteerien tunnistuksessa ja puolustusreaktiossa niitä vastaan. Tutkimuksessa havaittiin kahden kinaasin, PI 3-kinaasin ja Brutonin tyrosiinikinaasin, liittyvän oleellisesti TLR signaalireitteihin. Nämä TLR:ien stimulaation seurauksena aktivoituneet kinaasit muodostivat spesifisiä sidoksia TLR:ien ja niiden signaaliketjuihin liittyvien solunsisäisten signaalivälittäjien kanssa. Lisäksi TLR2 signaalireitillä havaittiin aktivoituvan tekijöitä, jotka johtivat interferoni-α välitteiseen tulehdusvasteen säätelyyn. TLR signaalireittien selvittäminen auttaa ymmärtämään tulehdussairauksien patofysiologiaa ja voi siten tulevaisuudessa johtaa parempien hoitomenetelmien kehittämiseen.

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