Global ETD Search

21	Characterization of Serum Profile and Innate Immunity Biomarkers During Enteric Inflammation in Broiler Chickens Duff, Audrey Faye January 2021 (has links) No description available. Animal Sciences chickens inflammation intestinal health serum protein electrophoresis CD205 dendritic cells degranulation
22	A CD57+ CTL Degranulation Assay Effectively Identifies Familial Hemophagocytic Lymphohistiocytosis Type 3 Patients / CD57陽性細胞傷害性Tリンパ球脱顆粒機能評価は家族性血球貪食性リンパ組織球症3型患者を効果的に同定する Hori, Masayuki 23 May 2017 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20563号 / 医博第4248号 / 新制\|\|医\|\|1022(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授生田宏一, 教授髙折晃史, 教授前川平 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM Lysosomal degranulation defect Functional screening assay UNC13D 490
23	Preparation of Divalent and Trivalent Antigens for Immunogical Studies on Degranulation of Mast Cells and Preparation of Ceragenins for Antiviral Studies Against Vaccinia Virus. Geng, Dianliang 20 December 2007 (has links) (PDF) CHAPTER 1 Aggregation of receptors for IgE (Fc RI) causes mast cells and basophils to release preformed contents of granules, including histamine and a variety of enzymes. This process, called degranulation plays a central role in allergic reactions. Methods to study this process are to create multivalent ligands which can interact with the receptors and, in turn, lead to aggregation of the receptors. We prepared a series of fluorophore-labeled divalent and trivalent antigens to study the degranulation of mast cells. Trivalent antigens proved to be much better stimulators for degranulation of mast cells than divalent antigens. These results indicate that aggregates formed by trivalent antigens are more complicated than those of divalent antigens. CHAPTER 2 Membrane-active antibiotics include antimicrobial peptides (AMPs) and a class of amphiphilic steroids termed ceragenins. Recent studies of membrane-active antibiotics show that cationic, facially amphiphilic molecules could disrupt bacterial membranes. It was found recently that some antibiotics, including AMPs and ceragenins, may share both antibacterial and antiviral activity. We prepared a series of ceragenins to optimize the antiviral activity of ceragenins against vaccinia virus (VV). The results show that ceragenins exhibit potent activity against VV, protect keratinocytes against VV-mediated cell death, and preferentially target the virus. It also shows that antibacterial and antiviral activities do not correlate with each other. Although ceragenins show good antiviral activity against VV, the mechanism for this activity still remains unclear. Degranulation Atigens Mast Cells Vaccinia Virus Ceragenins Antiviral Activity Biochemistry Chemistry
24	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
25	Mechanisms triggering the recruitment of mast cell progenitors to the lung and regulation of mast cell degranulation Zarnegar, Behdad January 2016 (has links) Mast cells stem from the bone marrow and migrate via the blood as mast cell progenitors. Upon arrival in peripheral tissues, they develop into mast cells. These rare immune cells have numerous granules that contain large amounts of pro-inflammatory mediators. Mast cells accumulate at certain sites in the asthmatic lung, and once activated they release mediators that are thought to induce symptoms. In mouse models of allergic airway inflammation, the increase in lung mast cells in asthma can be mimicked and is mainly caused by the recruitment of mast cell progenitors to the lung. However, whether other types of lung inflammation stimulate the recruitment of mast cell progenitors to the lung was unknown until now. Here, using a murine model of influenza A virus infection, this type of virus was demonstrated to trigger an extensive recruitment of mast cell progenitors to the lung, most likely through the induction of VCAM-1 expression in the lung endothelium. Thereafter, some influenza-induced mast cell progenitors developed into an intermediate mast cell stage before they matured into mast cells. However, upon the resolution of inflammation, the mast cells that accumulated in the lung upon influenza infection were gradually lost. Because the recruitment of mast cell progenitors started early after influenza infection, the role of innate immune signals in inducing the recruitment of mast cell progenitors was addressed. The intranasal administration of either Poly I:C or IL-33 was sufficient to induce an increase in lung mast cell progenitors in a TLR3- or ST2-dependent fashion. However, the influenza-induced recruitment of mast cell progenitors to the lung occurred independently of TLR3 and ST2. VAAT/SLC10A4 is a member of the solute carrier family of proteins that is expressed in nerve cells and mast cells. In this study, murine VAAT was localized to mast cell granules and regulated the IgE/antigen-mediated release of granule-associated mediators and ATP. However, the absence of VAAT did not affect IgE/antigen-mediated de novo synthesis of cytokines and lipid mediators. Additionally, mice lacking VAAT had attenuated passive cutaneous anaphylaxis reactions and scratched less frequently in response to compound 48/80 injections, suggesting that VAAT regulates reactions for which mast cells are implicated in vivo. Mast cells Mast cell progenitors Recruitment Lung Virus Influenza Innate immunity Poly I:C IL-33 VAAT SLC10A4 Degranulation
26	Mechanisms of granule protein mobiliation in blood eosinophils Karawajczyk, Malgorzata January 2000 (has links) <p>Serum levels of eosinophil granule proteins namely ECP, EPO and EPX, which are stored in the matrix of specific granules, were shown to correlate with the course of disease in disorders involving eosinophils. The concentration of eosinophil proteins in serum is the result of their release <i>in vivo</i> and <i>ex vivo</i> during the sampling procedure. Generally, eosinophils release the content of their specific granules in three ways: exocytosis, piecemeal degranulation (PM) or cytolysis. Which of them is operating in circulating eosinophils has not yet been defined. The aim of this thesis was to study the mechanisms of granule protein release from blood eosinophils in respect of protein subcellular localization and cell ultrastructure.</p><p>In patients with bacterial infections, serum levels of ECP but not EPO increased, while in patients with viral infections both proteins remained within the range of healthy controls. G-CSF is a cytokine involved in the response mechanism to bacterial but not viral infections. Administration of G-CSF to healthy subjects induced an elevation of eosinophil numbers and a preferential increase of serum EPX and ECP in comparison to EPO.</p><p>The model of PM consists of the stepwise transportation of specific granule contents from the granules towards the plasma membrane. We observed that administration of G-CSF to healthy subjects and the allergen exposure of allergic subjects during the pollen season, caused changes in the ultrastructure of eosinophil specific granules such as loosening of the matrix, granule matrix lucency and ragged losses of their core. Similar alterations of morphology had been previously described for eosinophils undergoing PM.</p><p>ECP, EPX and EPO were localized not only in the specific granules but also in extra-granular compartments as shown both by immuno electron microscopy and subcelular fractionations, An extra-granular EPX compartment was present in healthy as well as in allergic and in hypereosinophilic subjects, and there were no significant differences in its size between the groups. The size of the extra-granular compartments of ECP and EPO was increased in allergics during the season, and these compartments were clearly separate from that of EPX. Results of this show the differential mobilization ofgranule proteins in blood stream eosinophils serum and indicates PM as its mechanism.</p> Medical sciences eosinophil granule proteins ECP EPX EPO serum levels piecemeal degranulation release ultrastructure subcellular fractionation MEDICIN OCH VÅRD MEDICINE MEDICIN
27	Mechanisms of granule protein mobiliation in blood eosinophils Karawajczyk, Malgorzata January 2000 (has links) Serum levels of eosinophil granule proteins namely ECP, EPO and EPX, which are stored in the matrix of specific granules, were shown to correlate with the course of disease in disorders involving eosinophils. The concentration of eosinophil proteins in serum is the result of their release in vivo and ex vivo during the sampling procedure. Generally, eosinophils release the content of their specific granules in three ways: exocytosis, piecemeal degranulation (PM) or cytolysis. Which of them is operating in circulating eosinophils has not yet been defined. The aim of this thesis was to study the mechanisms of granule protein release from blood eosinophils in respect of protein subcellular localization and cell ultrastructure. In patients with bacterial infections, serum levels of ECP but not EPO increased, while in patients with viral infections both proteins remained within the range of healthy controls. G-CSF is a cytokine involved in the response mechanism to bacterial but not viral infections. Administration of G-CSF to healthy subjects induced an elevation of eosinophil numbers and a preferential increase of serum EPX and ECP in comparison to EPO. The model of PM consists of the stepwise transportation of specific granule contents from the granules towards the plasma membrane. We observed that administration of G-CSF to healthy subjects and the allergen exposure of allergic subjects during the pollen season, caused changes in the ultrastructure of eosinophil specific granules such as loosening of the matrix, granule matrix lucency and ragged losses of their core. Similar alterations of morphology had been previously described for eosinophils undergoing PM. ECP, EPX and EPO were localized not only in the specific granules but also in extra-granular compartments as shown both by immuno electron microscopy and subcelular fractionations, An extra-granular EPX compartment was present in healthy as well as in allergic and in hypereosinophilic subjects, and there were no significant differences in its size between the groups. The size of the extra-granular compartments of ECP and EPO was increased in allergics during the season, and these compartments were clearly separate from that of EPX. Results of this show the differential mobilization ofgranule proteins in blood stream eosinophils serum and indicates PM as its mechanism. Medical sciences eosinophil granule proteins ECP EPX EPO serum levels piecemeal degranulation release ultrastructure subcellular fractionation MEDICIN OCH VÅRD MEDICINE MEDICIN
28	Eosinophil Inflammation in Allergic Disease : Clinical and experimental studies in allergic asthma and allergic rhinitis Kämpe, Mary January 2010 (has links) Allergic diseases are chronic inflammatory conditions, characterised by eosinophil inflammation systemically and in target organs, where cytotoxic granule proteins are responsible for tissue injury. Allergic rhinitis is known to be a risk factor for the development of asthma, yet not all with rhinitis develop asthma. The overall aim was to investigate the involvement of eosinophils in allergic rhinitis and allergic asthma in vivo and in experimental settings, with a focus on differences between rhinitis and asthma. Birch pollen allergy was used as a model and patients were studied during pollen season and after nasal and bronchial allergen challenge. During pollen season and at baseline, allergic rhinitis and allergic asthma had the same degree of systemic eosinophil inflammation. Despite this, impairment in lung function during season and increased bronchial responsiveness at baseline were more common in the asthmatics. Systemic inflammation was more pronounced after seasonal exposure than after experimental challenge. Allergic rhinitis and allergic asthma had the same degree of eosinophil airway inflammation after bronchial challenge, but only the asthmatics had increased bronchial responsiveness measured as PD20 for birch allergen. Allergen primed eosinophils were investigated in vitro for C3b-induced degranulation after seasonal and experimental challenge. The released amount of eosinophil granule proteins was within the same range for all three allergen challenge models with just minor differences in propensity for degranulation between rhinitics and asthmatics. Signalling through PI3K for degranulation was studied with the specific inhibitor Wortmannin. PI3K signalling for eosinophil degranulation was clearly involved in allergic rhinitis and allergic asthma irrespective of the model for allergen exposure. Asthmatics demonstrated less inhibition of degranulation through PI3K during pollen season, indicating that other pathways contribute to eosinophil degranulation in allergic asthmatics. Conclusion: Allergic rhinitis and allergic asthma present with the same degree of systemic and local eosinophil inflammation. The eosinophils are primed for degranulation equally and follow the same pathway through PI3K for degranulation. Our data indicates that eosinophil inflammation per se is not sufficient for the development of asthma. Allergic asthma allergic rhinitis eosinophils pollen season bronchial challenge nasal challenge eosinophil degranulation PI3K signalling Allergology Allergologi
29	Etude de la dynamique de dégranulation des mastocytes et analyse de l'effet des éicosanoïdes dans la coopération entre mastocytes et lymphocytes T Helper / Study of mast cell degranulatory response dynamic and analysis of eicosanoid influence during mast cell and Helper cells cooperation Joulia, Régis 08 November 2016 (has links) Les mastocytes sont des cellules immunitaires présentes dans tous les tissus de l'organisme. Ils ont été depuis longtemps associés aux réponses allergiques, mais ces cellules sont aussi des acteurs majeurs de la réponse inflammatoire. La dégranulation des mastocytes, ou exocytose des granules sécrétoires, est un mécanisme d'action important de ces cellules. Au laboratoire, nous avons mis au point une méthode innovante qui nous permet de suivre en temps réel la dynamique de cette dégranulation. Cette méthode repose sur l'utilisation de l'avidine couplé à un fluorochrome qui se lie spécifiquement à la matrice des granules. Nous avons recherché les modalités de la dégranulation lorsque les mastocytes sont activés par un ligand cellulaire comme des cellules cibles recouvertes d'anticorps. Nous avons pu mettre en évidence, de façon surprenante, que les mastocytes dégranulent de manière polarisée contre une cellule cible opsonisée avec des anticorps de type IgE ou IgG en mettant en place un nouveau mécanisme que nous avons nommé ADDS (Antibody Dependent Degranulatory Synapse). L'ADDS est caractérisée par une signalisation du récepteur RFc et une dépolymérisation du cytosquelette cortical d'actine locales. De plus, cette synapse peut aussi avoir lieu lorsque le mastocyte est au contact d'un parasite opsonisé comme Toxoplasma Gondii, et induit la mort du parasite et la libération de cytokines et chimiokines pro-inflammatoires. Nous avons ensuite analysé la dynamique de la dégranulation à l'échelle " single cell " et sa régulation par des facteurs inflammatoires. Grâce à une approche de " cell barcoding " et de cytométrie en flux en temps réel, nous avons pu mettre en évidence que la dégranulation induite par l'agrégation des RFc?I était contrôlée par deux mécanismes : un premier qui règle le nombre de mastocytes qui dégranulent et un second qui régule l'intensité de la dégranulation. L'interleukine 33 peut finement potentialiser ces deux mécanismes en augmentant le pourcentage de mastocytes qui dégranulent et l'intensité de la dégranulation. L'IL-33 induit ainsi l'émergence de cellules hautement inflammatoires. Dans un second axe de recherche, nous avons étudié quel pouvait être l'impact des prostaglandines dans le dialogue entre mastocytes et lymphocytes T CD4+ Helper (TH). Nos résultats indiquent un rôle insoupçonné de la prostaglandine D2 et la prostaglandine E2 comme des acteurs importants pour la production d'interleukine 17 par les LTH. En conclusion, mon travail de thèse nous a permis de révéler l'existence de la synapse dégranulatoire des mastocytes, de nouveaux mécanismes contrôlant la dégranulation et d'identifier les mastocytes comme une source importante de prostaglandines impliquées dans la polarisation des LTH. / Mast cells are tissue-resident immune cells particularly enriched in regions exposed to the external environment. They have been associated, for a long time, with allergic disorders but these cells are also major effectors of inflammatory response. The degranulation process, or granule exocytosis, is one of the main effector functions of mast cells and it has been implicated in various biological processes. In our laboratory, we have developed a new method to monitor live mast cell degranulatory response. This approach is based on fluorescent avidin that binds selectively mast cell granule matrix. Thanks to this method, we have investigated the degranulatory response following mast cell activation by cell bound antigens. We have shown that mast cells can undergo polarized degranulation toward IgE- or IgG-opsonized cells in a new mechanism we named ADDS (Antibody Dependent Degranulatory Synapse). The ADDS is characterized by a local signaling of FcR receptors and cortical actin depolymerisation. Moreover, this synapse takes place when mast cells are triggered by opsonized parasite Toxoplasma Gondii. It leads to the death of the parasite and the release of pro-inflammatory cytokines and chemokines. We next analyzed the mast cell degranulatory response dynamics at the single cell level and its regulation by alarmin IL-33. Using cutting-edge "cell barcoding" approach and live flow cytometry, we showed that Fc?RI mediated degranulatory response is controlled by two mechanisms: a first one that sets the frequency of degranulated mast cells and a second one that regulates the magnitude of the degranulation. The IL-33 fine tunes these two mechanisms by augmenting both the frequency of degranulated mast cells and the extent of individual mast cell degranulation. Our results indicate that interleukin 33 induces the emergence of high inflammatory mast cells. In a second axis of research, we analysed the influence of prostaglandins during the cooperation between mast cells and CD4+ T helper cells. Our results indicate that prostaglandin D2 and E2 produced by mast cells are important inducers of interleukin 17 by CD4+ T helper cells. Taken together, my thesis work revealed that mast cells can form degranulatory synapses, new mechanisms that control the degranulatory response and identified mast cells as a source of pro-IL-17 prostaglandins during their cooperation with CD4+ T helper cells. Mastocyte Dégranulation Synapse Interleukine-33 Eicosanoïde Lymphocyte TH Mast cell Degranulation Synapse Interleukin-33 Eicosanoid TH cell
30	Vliv elektrických pulzů na lidské krevní fagocyty / Influence of electrical pulses on human blood phagocytes Chorvátová, Michaela January 2019 (has links) The phagocytic cells circulating in the bloodstream play a key role in both the defense of the body and the pathology of inflammatory diseases. Thus, targeting their functions has potential to modulate an immune response, especially during the inflammatory phase. This master's thesis was focused on the influence of electric pulses on the most abundant phagocyte population in human peripheral blood, namely neutrophils. The theoretical part describes the role of neutrophils in the development of the immune response and the effects of the electric field on various cells. Consequent part of the thesis was the optimization of the electrical stimulation of neutrophils using a unique platform with a network of gold electrodes. In stimulated cells by electrical pulses, activation of selected signaling pathways, degranulation, ROS production, citrullination of histone H3 and expression of surface markers were monitored. Overall, electrical stimulation was observed to induce neutrophil activation but only electrical pulses of size 1 V were found to be statistically significant in the case of ROS production and 10 mV and 100 mV electrical pulses in the case of metalloproteinase MMP8 degranulation. The absence of significant effects in the most observed parameters was probably due to unwanted activation of neutrophils in control samples.

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