Global ETD Search

141	Analysis and Optimization of Eddy Current Detection in Animal Tissue Jones, Travis Hamilton 02 October 2014 (has links) No description available. Animal Diseases Biomedical Engineering Biophysics Electromagnetics Electromagnetism Engineering Mechanical Engineering Medical Imaging Surgery Veterinary Services
142	Cloning, Expression, and Characterization of Ara h 3, a Major Peanut Allergen Garvey, Cathryn E. 15 December 2012 (has links) Abstract There are eight foods that contribute to food allergies in the western world and peanut is the most common. Currently, there are no medical treatments that can cure an individual of food allergy, so avoidance of the allergic food is the only option. In the United States, there are three immunodominant allergic proteins accountable for patient sensitization to peanut, Arachis hypogea 1, 2, and 3 (Ara h 1, Ara h 2, Ara h 3). Therefore, research into why peanuts are more allergic than other foods that have homologous proteins is critical and may be obtained by studying the structural and allergenic properties of individual allergens and the changes that occur due to food processing. In this study, the basic and acidic subunits of Ara h 3 were cloned, expressed, and purified, and compared with each other and with the native Ara h 3 purified from peanut for differences in binding to IgE from peanut allergic individuals. Also, an in vitro Maillard reaction was performed on purified native raw Ara h 3 and patient serum IgE western blots were performed. This study concluded that an in vitro Maillard reaction enhanced IgE binding to Ara h 3, IgE binding to native Ara h 3 was in most cases higher than to the recombinant Ara h 3 subunits, and recognition of the acidic subunit was much higher than the and basic subunits in both the recombinant and native forms of the protein were investigated. Keywords: Biochemistry Food Biotechnology Food Chemistry Food Microbiology Molecular Biology Other Immunology and Infectious Disease Structural Biology
143	Mechanisms underlying the regulatory function of tumor necrosis factor-alpha in skin inflammation Kumari, Vandana 04 January 2015 (has links) Die Haut ist das größte Organ des Menschen und bildet die Barriere gegenüber Einwirkungen aus der Umwelt. Die Störung der Hautbarriere durch exogene und endogene Reize führt zu einer Entzündungsreaktion in der Haut. In der Folge können Hauterkrankungen wie die irritative oder Atopische Dermatitis entstehen. Der Tumor Nekrose Faktor-α (TNF-α) ist ein pleiotrop wirksames Zytokin, das eine zentrale Rolle bei entzündlichen Prozessen spielt. Ziel der vorgelegten Promotionsarbeit war zu untersuchen, ob und wie TNF-α zu Entzündungsgeschehen, ausgelöst durch exogene und endogene Faktoren, beiträgt. Die Bedeutung von TNF-α wurde in TNF-ko Mäusen in verschiedenen Hautmodellen untersucht. Für das Irritationsmodell wurden chemische und physikalische Reize verwendet. TSLP (Thymic stromal lymphopoietin) wurde durch die verschiedenen Stimuli signifikant induziert. Diese Induktion war unabhängig von der endogenen TNF-α Produktion, gezeigt durch den Einsatz von TNF- ko Mäusen . Da endogenes TNF-α für die Hautirritation keine notwendige Bedingung darstellte, wurde die Bedeutung von TNF-α bei der atopischen Dermatitis (AD) untersucht. TNF-α defiziente Mäuse zeigen verstärkt Ekzeme im Vergleich zu Wildtyp Mäusen. Die Behandlung von TNF-ko Mäusen mit einem TSLP Antikörper führte zu einer Verminderung des Ekzems. Mastzellen wurden vermehrt in läsionaler Haut gefunden und korrelierten mit dem Schweregrad des atopischen Ekzems sowie der TSLP-Expression. / The skin is the largest organ of an individuum and builds the barrier for a host against the environment. Skin barrier disruption by exogenous or endogenous stimuli can lead to skin inflammation. As a consequence, irritant or atopic eczema, frequent skin diseases, may evolve. Tumor necrosis factor-α (TNF-α) is a pleiotropic cytokine which plays a central role in inflammatory processes. The main aim of this thesis was to clarify whether and how endogenous TNF-α is contributing to skin inflammation driven by exogenous and endogenous triggers. The role of endogenous TNF-α was studied using TNF knockout (-/-) mice. In an irritation model, chemical and physical stimuli were applied on to mouse skin. Thymic stromal lymphopoietin (TSLP) was significantly induced by the used irritants. This TSLP induction was independent from endogenous TNF-α proven by using TNF-/- mice. Next the role of TNF-α in atopic dermatitis (AD) promoting an allergic skin inflammation was investigated. TNF-/- mice developed more severe AD compared to the wildtype mice and TSLP was significantly increased and correlated with the severity of the eczema. To prove the pathophysiological role of TSLP for AD progression, TNF-/- mice were pretreated with an TSLP antibody. Indeed, these mice developed less AD symptoms compared to the control mice. Mast cells (MCs) were also significantly increased in lesional skin in the AD model and moreover, correlated with AD severity, but also with TSLP expression. Mastzellen Tumor Nekrose Faktor-α Thymic stromal lymphopoietin Hauterkrankungen Atopischen Dermatitis Tumor necrosis factor-α Thymic stromal lymphopoietin skin inflammation Atopic dermatitis Mast cell 570 Biowissenschaften, Biologie 32 Biologie YF 2192 ddc:570
144	Auswirkungen der Bestrahlung mit UVB, UVA-1 und PUVA-1 auf das Funktionsverhalten humaner dermaler Mastzellen nach Stimulation mit anti-IgE und Substanz P Strathmann, Marc 16 September 2004 (has links) Die in dieser Arbeit isolierten und hochaufgereinigten, humanen dermalen Mastzellen wurden mit UVB, UVA-1 und PUVA-1 bestrahlt und anschließend entweder mit Substanz P oder anti-IgE stimuliert. Dadurch sollten Einblicke in die unterschiedlichen Wirkmechanismen der bei zahlreichen mastzellassoziierten Erkrankungen eingesetzten UV Licht Therapie gewonnen werden. Ein Schwerpunkt dieser Arbeit lag in der Erforschung der Histamin-, Tryptase- und Zytokinfreisetzung von menschlichen Mastzellen. Zusätzlich wurde die Expression von Lysosomen-assoziierten Membran Proteinen (LAMPs) auf der Oberfläche dieser Zellen untersucht. Im Gegensatz zu der durch UV Licht induzierbaren spontanen Histaminfreisetzung zeigte sich die anti-IgE stimulierte Histaminausschüttung durch UVB, UVA-1 und PUVA-1 signifikant und dosisabhängig inhibierbar. Auch die durch Substanz P stimulierten Mastzellen gaben nach UVA-1 Bestrahlung deutlich weniger Histamin ab. Demgegenüber blieb die sezernierte Menge des Mediators nach UVB und PUVA-1 konstant. Analog zu den erhobenen Histaminergebnissen konnte eine signifikante Inhibition der anti-IgE induzierten Tryptasefreisetzung nachgewiesen werden. Ebenso zeigte sich eine signifikante Verringerung, der innerhalb von vierundzwanzig Stunden basal freigesetzten Menge an Interleukin-6 und Interleukin-8, nach UV Bestrahlung. Die spontane Ausschüttung vom Tumornekrosefaktor-a verblieb in dem Untersuchungszeitraum auf sehr geringem Niveau, so dass eine relevante Beeinflussung durch UV Licht nicht stattfand. Des weiteren konnte eine vermehrte basale Expression von CD107a und CD63 auf der Mastzellmembran durch UV Bestrahlung demonstriert werden. Auch die anti-IgE induzierte Mehrexpression der LAMPs konnte bei den drei Bestrahlungsarten nachweisbar supprimiert werden. Die in dieser Arbeit gewonnenen Erkenntnisse zeigen, dass die Auswirkungen der UV Licht Therapie auf Mastzellen sehr komplex sind. Zu beachten ist, dass unter physiologischen Bedingungen nicht nur isolierte Mastzellen, sondern auch weitere bestrahlte Zellverbände eine Veränderung erfahren. Erst durch das Zusammenspiel aller Zellen lassen sich Rückschlüsse auf Krankheitsbilder und die anzuwendende Therapien ziehen. Letztendlich soll diese Arbeit dazu beitragen, dass das Verständnis der unterschiedlichen Wirkungen von UV Licht begriffen und so ein sinnvolles und gezieltes Einsetzen im klinischen Alltag ermöglicht wird. / For all experiments highly purified dermal mast cells were used. The aim of the current study was to systematically investigate the effects of UVB, UVA-1 and PUVA-1 on skin derived human mast cells. Baseline and stimulated release of histamine, tryptase and of the proinflammatory cytokines IL-6, IL-8 and TNF-a were examined. Furthermore, the CD 107a and CD 63 surface levels in UV treated cells were investigated representing two members of lysosome associated membrane proteins which were found to appear on mast cell surface during degranulation. Prior treatment with UV resulted in a striking suppression of the anti-IgE induced release of preformed mediators such as histamine and tryptase in a dose dependent manner. This inhibition was accompanied by a diminished, anti-IgE mediated increase in CD 107a and CD 63 surface expression. In sharp contrast, UV-light slightly preactivates mast cells as indicated by a marginal but statistically significant direct UV-caused histamine release. Theses findings matched the observation of slightly enhanced CD 107a and CD 63 surface levels in UV treated but unstimulated cells. After UVA-1 treatment the histamine release of substance P stimulated mast cells is statistically significant reduced which contrasts to the unchanged liberation of this preformed marker after UVB and PUVA-1 irradiation. Furthermore the release of mediators that are not or only partially preformed was examined. In the present study all types of UV-irradiation inhibits baseline IL-6 and IL-8 secretion from mast cells. The very low baseline level of TNF-a remained unaffected. Taken together, the present findings identify cutaneous human mast cells as important targets of UV-induced immunomodulation. They help explain both the dose-dependent adverse effects of UV-light and the beneficial and desired antiinflammatory effects during therapy. Humane dermale Mastzelle UV Licht Mediatoren human skin mast cell UV light mediators 610 Medizin 33 Medizin XG 4304 YF 1804 WW 5000 ddc:610
145	Die Regulation der Synthese und Freisetzung von FGF-2 aus humanen dermalen Mastzellen Krajewski, Anna Christina 13 February 2006 (has links) Die Synthese und -Freisetzung von FGF-2 aus humanen dermalen Mastzellen Fibroblast growth factor-2 (FGF-2) ist ein Mitglied einer großen Familie von Wachstumsfaktoren. FGF-2 fördert das Wachstum und die Entwicklung von Blutgefäßen (Angiogenese) und nimmt somit Einfluss auf Wundheilungsprozesse, Gewebeentwicklung, als auch verschiedene pathologische Vorgänge im Organismus. Mastzellen wurden lange Zeit allein als Effektorzellen der Typ I Allergiereaktion betrachtet. Mittlerweile betrachten man sie auch als wichtige Zellen für die Gewebe Homöostase und Wundheilung. In der vorliegenden Arbeit wurden MC aus humenen dermalen Gewebe isoliert, um deren FGF-2 Synthese und –Freisetzung zu untersuchen. Die Zellen wurden mit verschiedenen proinflammatorischen Mediatoren stimuliert. FGF-2 wurde mit ELISA und PCR Methoden bestimmt. Durch Stimulationen mit a–IgE, SP, IL–4, IL–6 und IL–8 wurde eine gesteigerte FGF–2–Synthese induziert. Weiterhin zeigten die vorliegenden Ergebnisse, dass bei der Degranulation der MC FGF-2 freigesetzt wird, auch wenn der zugrunde liegende Mechanismus für die Freisetzung weiterhin unklar bleibt. UVA1–und PUVA1–Bestrahlung hatten einen inhibieren Effekt auf die Sekretion des Proteins. / Synthesis and release of FGF-2 from human dermal mast cells Fibroblast growth factor-2 (FGF-2) is a member of a large family of proteins. FGF-2 stimulates the growth and development of new blood vessels (angiogenesis) that contribute to the pathogenesis of several diseases (i.e. atherosclerosis), normal wound healing and tissue development. Mast cells are traditionally viewed as effector cells of immediate type hypersensitivity reactions. There is, however, a growing body of evidence that the cells might play an important role in the maintenance of tissue homeostasis and repair. In this present investigation we isolated MC from human tissue to investigate their FGF-2 synthesis and release after stimulation with different proinflammatory mediators. To detect FGF-2 we used ELISA and PCR technique. We could show the up-regulation of FGF-2 synthesis after stimulation with a-IgE, SP, IL-4, IL-6 and IL-8. Within the degranulation of MC there was a release of FGF-2 even though the mode of release still remains unclear. Through UV-light radiation we could show a downregulation of FGF-2 release. Mastzelle Fibroblast growth factor-2 Wundheilung Degranulation Stimulation Proinflammatorische Mediatoren inflammation Mast cell fibroblast growth factor-2 wound healing degranulation stimulation proinflammatory Mediators 610 Medizin 33 Medizin XG 4304 XG 4318 XG 4321 ddc:610
146	Gastrointestinal mucosal protective mechanisms : Mudolatory effects of Heliobacter pyroli on the gastric mucus gel barrier and mucosal blood flow in vivo Atuma, Christer January 2000 (has links) <p>The gastrointestinal mucus gel layer and blood flow are two important mechanisms for protection at the pre-epithelial and sub-epithelial levels, respectively. <i>Helicobacter pylori</i> might circumvent these mechanisms and elicit a chronic inflammatory response with consequent ulcers in the stomach and duodenum. In this thesis, the physical state and properties of the adherent mucus gel layer was studied from the stomach to colon. Furthermore, the acute and chronic effects of <i>H. pylori</i> on the integrity of the mucus gel layer and mucosal blood flow were studied in the anesthetized rat.</p><p>A translucent mucus gel covers all studied segments of the gastrointestinal tract during fasting conditions, with the thickest layers in the colon and ileum. Carefully applied suction revealed that the mucus gel was a multi-layered structure comprising a firmly adherent layer covering the mucosa, impossible to remove, and a loosely adherent upper layer. The firmly adherent layer was thick and continuous in the corpus (80μm), antrum (154μm) and colon (116μm), but thin (<20μm) and discontinuous in the small intestine.</p><p>Following mucus removal, a rapid renewal of the loosely adherent layer ensued. The highest rate was observed in the colon with intermediate values in the small intestine. Mucus renewal in the stomach was attenuated on acute luminal application of water extracts from <i>H. pylori</i> (HPE). In animals with a chronic <i>H. pylori</i> infection the mucus renewal rate was unaffected, but the total gastric mucus gel thickness was reduced and the mucus secretory response to luminal acid (pH1) attenuated in the antrum. </p><p>HPE from type I strains acutely reduced corporal mucosal blood flow, measured with laser-Doppler flowmetry, by approximately 15%. The reduction in blood flow was mediated by a heat stable factor other than VacA and CagA. Inhibition of endogenous nitric oxide production with Nω-nitro-l-arginine augmented the decrease. However, ketotifen, a mast cell stabilizer, completely attenuated the effect of the extract as did the platelet activating factor (PAF) receptor-antagonist, WEB2086, thus depicting a detrimental role for the microvascular actions of PAF.</p> Physiology and anatomy mucus gel layer mucosal blood flow mucus thickness chronic infection rat platelet activating factor mast cell nitric oxide nitric oxide synthase ketotifen intra-vital microscopy microelectrode laser-Doppler flowmetry L-NNA Fysiologi och anatomi Physiology and pharmacology Fysiologi och farmakologi
147	Gastrointestinal mucosal protective mechanisms : Mudolatory effects of Heliobacter pyroli on the gastric mucus gel barrier and mucosal blood flow in vivo Atuma, Christer January 2000 (has links) The gastrointestinal mucus gel layer and blood flow are two important mechanisms for protection at the pre-epithelial and sub-epithelial levels, respectively. Helicobacter pylori might circumvent these mechanisms and elicit a chronic inflammatory response with consequent ulcers in the stomach and duodenum. In this thesis, the physical state and properties of the adherent mucus gel layer was studied from the stomach to colon. Furthermore, the acute and chronic effects of H. pylori on the integrity of the mucus gel layer and mucosal blood flow were studied in the anesthetized rat. A translucent mucus gel covers all studied segments of the gastrointestinal tract during fasting conditions, with the thickest layers in the colon and ileum. Carefully applied suction revealed that the mucus gel was a multi-layered structure comprising a firmly adherent layer covering the mucosa, impossible to remove, and a loosely adherent upper layer. The firmly adherent layer was thick and continuous in the corpus (80μm), antrum (154μm) and colon (116μm), but thin (<20μm) and discontinuous in the small intestine. Following mucus removal, a rapid renewal of the loosely adherent layer ensued. The highest rate was observed in the colon with intermediate values in the small intestine. Mucus renewal in the stomach was attenuated on acute luminal application of water extracts from H. pylori (HPE). In animals with a chronic H. pylori infection the mucus renewal rate was unaffected, but the total gastric mucus gel thickness was reduced and the mucus secretory response to luminal acid (pH1) attenuated in the antrum. HPE from type I strains acutely reduced corporal mucosal blood flow, measured with laser-Doppler flowmetry, by approximately 15%. The reduction in blood flow was mediated by a heat stable factor other than VacA and CagA. Inhibition of endogenous nitric oxide production with Nω-nitro-l-arginine augmented the decrease. However, ketotifen, a mast cell stabilizer, completely attenuated the effect of the extract as did the platelet activating factor (PAF) receptor-antagonist, WEB2086, thus depicting a detrimental role for the microvascular actions of PAF. Physiology and anatomy mucus gel layer mucosal blood flow mucus thickness chronic infection rat platelet activating factor mast cell nitric oxide nitric oxide synthase ketotifen intra-vital microscopy microelectrode laser-Doppler flowmetry L-NNA Fysiologi och anatomi Physiology and pharmacology Fysiologi och farmakologi
148	Barrier function of the Follicle-Associated Epithelium in Stress and Crohn's disease Keita, Åsa January 2007 (has links) Crohns sjukdom är en kronisk inflammatorisk tarmsjukdom av okänd orsak. Det tidigaste tecknet på Crohns sjukdom är mikroskopiska sår i det s.k. follikelassocierade epitelet (FAE) som täcker ansamlingar av immunceller i tarmen. FAE är specialiserat för att fånga innehåll från tarmen och transportera det till underliggande immunvävnad. Denna funktion är viktig för att inducera skyddande immunsvar, men den utgör också en ingångsväg för sjukdomsalstrande bakterier. Crohns sjukdom är associerat med ett kraftigt ökat immunsvar mot bakterier, och sjukdomsförloppet kan ändras av stress. Det övergripande syftet med avhandlingen var att studera effekterna av stress på FAE samt att undersöka rollen av FAE vid utvecklingen av tarminflammation, särskilt vid Crohns sjukdom. Inledningsvis studerades effekterna av psykologisk stress på FAE. Stressade råttor uppvisade ökad genomsläpplighet av bakterier efter stress, och passagen var högre i FAE än i vanligt epitel. Efterföljande experiment visade att stressförändringarna i slemhinnan regleras via kortikotropinfrisättande hormon och mastceller. Vidare visade det sig att vasoaktiv intestinal peptid kunde efterlikna stressens effekter på genomsläppligheten, och att detta kunde förhindras genom att blockera mastcellerna. Studier av tunntarmsslemhinna från patienter med icke-inflammatorisk tarmsjukdom och friska kontroller visade en högre passage av bakterier i FAE än i vanligt epitel. Hos patienter med Crohns sjukdom var bakteriepassagen genom FAE betydligt ökad jämfört med kontroller. Resultaten från detta avhandlingsarbete visar att stress kan förändra upptaget av bakterier från tarmen via FAE, med mekanismer som innefattar kortikotropinfrisättande hormon och mastceller. Detta har gett nya kunskaper kring regleringen av slemhinnebarriären. Vidare presenterar denna avhandling nya insikter i sjukdomsuppkomsten vid Crohns sjukdom genom att påvisa en tidigare okänd defekt i barriärfunktionen i FAE. / The earliest observable signs of Crohn’s disease are microscopic erosions in the follicle-associated epithelium (FAE) covering the Peyer’s patches. The FAE, which contains M cells, is specialised in sampling of luminal content and delivery to underlying immune cells. This sampling is crucial for induction of protective immune responses, but it also provides a route of entry for microorganisms into the mucosa. Crohn’s disease is associated with an increased immune response to bacteria, and the disease course can be altered by stress. The overall aim of this thesis was to study the effects of stress on the FAE and elucidate the role of FAE in the development of intestinal inflammation, specifically Crohn’s disease. Initially, rats were submitted to acute and chronic water avoidance stress to study the effects of psychological stress on the FAE. Stressed rats showed enhanced antigen and bacterial passage, and the passage was higher in FAE than in regular villus epithelium (VE). Further, stress gave rise to ultrastructural changes. Subsequent experiments revealed the stress-induced increase in permeability to be regulated by corticotropin-releasing hormone and mast cells. Furthermore, vasoactive intestinal peptide (VIP) mimicked the stress effects on permeability, and the VIP effects were inhibited by a mast cell stabiliser. Human studies of ileal mucosa from patients with non-inflammatory disease and healthy controls showed a higher antigen and bacterial passage in FAE than in VE. In patients with Crohn’s disease, the bacterial passage across the FAE was significantly increased compared to non-inflammatory and inflammatory controls (ulcerative colitis). Furthermore, there was an enhanced uptake of bacteria into dendritic cells, and augmented TNF-α release in Crohn’s disease mucosa. Taken together this thesis shows that stress can modulate the uptake of luminal antigens and bacteria via the FAE, through mechanisms involving CRH and mast cells. It further shows that human ileal FAE is functionally distinct from VE, and that Crohn’s disease patients exhibit enhanced FAE permeability compared to inflammatory and non-inflammatory controls. This thesis presents novel insights into regulation of the FAE barrier, as well as into the pathophysiology of Crohn’s disease by demonstrating a previously unrecognised defect of the FAE barrier function in ileal Crohn’s disease. Corticotropin-releasing hormone Crohn’s disease 51Cr- EDTA Escherichia coli follicle-associated epithelium horseradish peroxidase human ileum inflammatory bowel disease intestinal mucosa mast cell M cell permeability Peyer’s patches rat Ussing chamber vasoactive intestinal peptide villus epithelium Surgery Kirurgi
149	Rôle des cellules myéloïdes immatures GR1+CD11b+ dans le rejet du mastocytome P815 / Role of GR1+CD11b+ myeloid immature cells on P815 mastocytoma rejection Lanaya, Hanane 20 June 2008 (has links) The failure of the immune system to provide efficient protection against tumour cells has been considered as a major issue in immunology. It is now well established that inadequate function of the host immune system is one of the main mechanisms by which tumours escape from immune control contributing to the limited success of cancer immunotherapy. Several cell populations have been described which display immunosuppressive properties and may impede tumor-specific immunity. Among them, GR1+CD11b+ immature myeloid suppressor cells and CD4+CD25+ regulatory T cells seem to play an important role. These cells accumulate in the spleens of tumour bearing mice and patients with cancer and contribute to immunosuppression by inhibiting the function of CD8+ T cells and/or by promoting tumour angiogenesis.<p><p>The aim of our work was to define the mechanisms by which a single dose of cyclophosphamide (CTX), a chemical agent commonly used in chemotherapy treatment, induces the rejection of established P815 mastocytoma. <p><p>Our data show that CTX treatment leads to the selective loss of GR1medCD11b+ splenic myeloid cell producing TGF-â, a cytokine which is known to suppress antitumoral response. Furthermore, injection of CTX causes a decrease in the number of naturally occurring regulatory T cells (CD4+CD25+Foxp3+) in the spleen and the tumor. Finally, CTX treatment induces the differentiation of GR1highCD11b+ splenic myeloid cells into mature GR1highCD11b+CD11c+ (possibly dendritic cells?) which express high levels of CD11c, MHC class II and CD86 molecules. Of note, these cells are mainly detected in tumour necrosis areas. <p><p>Collectively, these results suggest that CTX prevents suppressive mechanisms and induces a population of CD11c+ myeloid cells which may present tumor antigens and activate T lymphocytes, an hypothesis in line with the requirement for CD4+ cells in CTX-induced long term resistance. <p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Sciences exactes et naturelles Biologie Immunologic diseases Mast cell disease Cancer -- Immunotherapy Immunosuppression T cells Cellular control mechanisms Maladies immunologiques Mastocytose Cancer -- Immunothérapie Immunosuppression Lymphocytes T Régulation cellulaire tumor rejection mastocytoma myeloid cells
150	Role of irritation and mast cell mediators on thymic stromal lymphopoietin (TSLP) expression in the skin and its impact on severity of atopic dermatitis Redhu, Davender 11 May 2020 (has links) Die Haut ist das größte Organ des Menschen und stellt die primäre Barriere gegen Umwelteinflüsse und Pathogene dar. Eine Dysbalance der Hautbarriere birgt die Gefahr einer nachfolgenden Entzündungsreaktion. Bleibt diese bestehen, können sich Hautkrankheiten wie zum Beispiel die atopische Dermatitis (AD) entwickeln. Verschiedene Zytokine wie Thymic Stromal Lymphopoietin (TSLP) werden bei entzündlichen Hauterkrankungen eine bedeutende Rolle zugeschrieben. Die Bedeutung von TSLP wurde zunächst anhand mehrerer Knockout-Mausstämme untersucht. Hier zeigte sich, dass TSLPR-KO und TNF-TSLPR-DKO Mäuse im Gegensatz zu TNF-KO Mäusen keine bzw. weniger Zeichen einer Entzündungsreaktion in der Haut entwickeln. Die Rolle äußerer Einflüsse auf die TSLP-Produktion wurde anhand eines Irritationsmodells ebenfalls in Mäusen untersucht. Dabei führte die Hautirritation, ausgelöst durch Abtragen der oberen Hautschichten mittels eines Tesa-Abriss, zu einem signifikanten Anstieg von TSLP in der Haut?. Mit Hilfe von Agonisten und Inhibitoren konnte gezeigt werden, dass dieser Irritations-vermittelte TSLP-Anstieg über Interleukin-1 (IL-1) und Protease Activated Receptor 2 (PAR-2) vermittelt wird. In diesem Zusammenhang wurde auch gezeigt, dass die Aktivierung von IL-1- sowie PAR-2-abhängigen Signalwegen zu einer gesteigerten Aktivität des TSLP-Promotors führte. Die Untersuchung der Wirkung verschiedener Mastzellmediatoren auf die TSLP-Expression ergab, dass Tryptase, über die Aktivierung von PAR-2, der wichtigste Mediator für den Anstieg von TSLP nach der Degranulation von Mastzellen ist. Dieses Ergebnis wurde mittels verschiedener in vitro, in vivo und ex vivo Experimentalansätze belegt. So konnte in einem c48/80-abhängigen Degranulationsmodell in Mäusen gezeigt werden, dss PAR-2- sowie Mastzell-KO Mäuse im Vergleich zu Wildtypen nach Injektion von c48/80 signifikant weniger TSLP exprimierten. / The skin is the first line of defense against environmental or microbial pathogens. A deviation of the skin barrier homeostasis by any kind of insult can result in an inflammatory response. The inflammatory response in turn can promote the development of an eczemaincluding atopic eczema. Thymic stromal lymphopoietin (TSLP) due to its pleiotropic nature play an important role in inflammatory disorders. The major aim of this thesis was to better understand the underlying mechanisms of TSLP production in the context of skin irritation and mast cell (MC) mediators and their contribution in the development of atopic dermatitis (AD). The role of TSLP was studied using TSLPR-/- mice. The data show that TSLPR-/- and TNF-/-/TSLPR-/- mice were protected from AD development, by contrast TNF-/- mice exhibited severe AD. The role of exogenous triggers was studied using tape stripping mediated skin irritation mouse models. Skin irritation resulted in significant enhanced TSLP production. TSLP induction was identified to depend on interleukin (IL)-1 and protease activated receptor (PAR)-2 pathways proven by using exogenous activators or inhibitors of these pathways. Moreover, PAR-2 and IL-1 concomitantly promoted NF-κB binding to the human TSLP promoter which in turn resulted in an increased TSLP promoter activity. Additionally, the role of mast cell mediators in the context of TSLP induction was investigated. Tryptase turned out to be the trigger responsible for the enhanced TSLP response by activating the PAR-2 pathway. This finding was proven by employing in vitro, ex vivo and in vivo approaches. In detail PAR-2-/- and MC-/- mice were used in a compound 48/80 (C48/80) dependent MCs degranulation model. PAR-2-/- and MC-/- mice produced significantly less TSLP in comparison to control mice. Thymic stromal lymphopoietin Hauterkrankungen Atopischen Dermatitis Mastzellen Interleukin-1 Thymic stromal lymphopoietin Skin inflammation Atopic Dermatitis Mast cell Interleukin-1 570 Biologie YF 1704 YF 2104 YF 3312 YF 3313 ddc:570

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