Global ETD Search

1	Interleukin-10 Suppresses Mast Cell IgE Receptor Expression And Signaling In Vitro And In Vivo Kennedy, Sarah B. 01 January 2007 (has links) Background: Mast cells are known for their role in allergy, asthma, and systemic anaphylaxis, and have been shown to play a role in inflammatory disease. Interleukin-10 can regulate inflammatory responses both in vitro and in vivo, and may be a natural regulator of mast cell activation.Objective: To examine Interleukin-10 mediated regulation of FcεRI expression and related downstream signaling molecules, and to determine how this affects mast cell function in vitro and in vivo.Methods: Mast cell FcεRI expression was evaluated with and without IL-10 treatment in human lung and skin mast cells, and on peritoneal mast cells from mice overexpressing IL-10 via injection or a transgenic model. Mast cell function was evaluated by observing responses of IL-10 treated mice to passive systemic anaphylaxis.Results: Interleukin-10 inhibited FcεRI expression on mouse and human mast cells, both in vitro and in vivo. IL-10 also suppressed expression of the key signaling molecules Syk, Fyn, Akt and Stat5. Mice chronically overexpressing IL-10 had a reduced response to passive systemic anaphylaxis, indicating impaired mast cell activation.Conclusion: Interleukin-10 suppresses mast cell FcεRI expression in vitro and in vivo, and reduces IgE-mediated activation. The anti-inflammatory effects of IL-10 may relate to its suppression of critical signaling molecules.Clinical Implications: Interleukin-10 polymorphism is associated with increased IgE levels and incidence of atopic disease; hence IL-10 dysregulation may affect atopic etiology. Further, IL-10 therapy is a possible treatment for atopic allergy and asthma. IL-10 FcεRI cell regulator mast cell Biology Life Sciences
2	Mise en évidence de nouvelles lignées mastocytaires humaines exprimant un récepteur aux IgE fonctionnel et différents types de récepteurs KIT, utilisées comme modèles d'étude de l'allergie et des mastocytoses / Establishment of stable human mast cell lines bearing or not a mutation of KIT and expressing the high affinity receptor for IgE, and their use as models for the study of allergy and mastocytosis Saleh, Rosine 21 March 2013 (has links) Les mastocytes (MCs) sont issus des cellules hématopoïétiques multipotentes non engagées, CD34+, et jouent un rôle important dans l’initiation de la réponse immunitaire innée et adaptative, ainsi que dans les réactions allergiques IgE-dépendantes. Les mastocytoses sont des néoplasies myéloïdes caractérisées par une accumulation anormale et l'activation fréquente de mastocytes dans divers organes. Les organes généralement atteints sont la moelle osseuse, la peau, le foie et le tractus gastro-intestinal. Elles sont caractérisées dans l’immense majorité des cas par la présence de mutations acquises de la structure du récepteur KIT (plus particulièrement KIT D816V) qui induisent l’activation constitutive de ce récepteur à activité tyrosine kinase intrinsèque. Le traitement actuel de ces pathologies est décevant car la mutation KIT D816V résiste à la plupart des inhibiteurs de tyrosine kinases (ITKs).Dès le début de ma thèse, nous avons pu établir, à partir de cellules souches hématopoïétiques de sang de cordon humain normal cultivées à long terme en présence de stem cell factor (SCF), une nouvelle lignée mastocytaire humaine stable, dénommée ROSA KIT WT, restant strictement dépendante pour sa survie et sa prolifération du SCF, exprimant le récepteur de haute affinité aux IgE (FcεRI), et présentant un récepteur KIT de structure normale. Cette lignée, facile à cultiver en grandes quantités, permet d’envisager l’étude approfondie des évènements intracellulaires menant à l’activation mastocytaire IgE-dépendante et la mise au point de tests de criblage à haut débit dans le domaine de la thérapeutique anti-allergique et/ou anti-inflammatoire.Par ailleurs, afin de pouvoir étudier le rôle transformant des mutants de KIT retrouvés au cours des mastocytoses, nous avons transfecté les cellules ROSA KIT WT par des vecteurs lentiviraux apportant une construction codant pour le KIT muté en D816V ou le KIT muté Delta 417-419 insY. Nous avons ainsi obtenu deux nouvelles lignées mastocytaires humaines SCF-indépendantes, ROSA KIT D816V et ROSA KIT Delta 417-419 insY, pour lesquelles nous avons montré qu’il existe une activation constitutive de KIT, mais aussi de STAT5 et d’AKT. Ces deux lignées de pourront être utilisées soit pour étudier l’impact des mutations de KIT sur la signalisation intracellulaire, soit pour le criblage molécules à activité antiproliférative potentielle dirigées soit contre KIT muté, soit contre l'une ou l’autre des molécules intracellulaires impliquées dans la transduction du signal KIT muté / Mast cells are cells with ubiquitous tissue distribution, derived from CD34 + multipotent hematopoietic cells. These cells play a fundamental role in the initiation of innate and adaptive immune response and in IgE-dependent allergic reactions or in various inflammatory reactions.Mastocytosis is defined as a myeloproliferative neoplastic disorder, caused by an abnormal accumulation of mast cells in one or more organ systems. Mastocytosis presents in cutaneous and systemic forms. In patients with systemic mastocytosis, the most frequent point mutation is KIT D816V, whereas in pediatric patients, where the disease is usually restricted to the skin, different KIT defects have been detected, mostly in the extracellular portion of KIT.In a primary culture of mast cells made from precursors of one cord blood, we have successfully isolated a new human mast cell line called ROSA KIT WT with a phenotype and reactivity comparable to those of normal mast cells. This cell line is dependent on SCF for growth and expresses the KIT receptor wild. It is easy to grow in large quantities, to freeze and to activate by IgE-anti IgE couple or a couple of allergen and corresponding specific IgE. This cell line can be used to study pathophysiologic mechanisms of allergy and to develop and use high-throughput screening tests of molecules in search of anti-allergic properties.In addition, we transfected these cells by lentiviral vectors providing constructs encoding the mutated KIT D816V or the mutated KIT Delta 417-419 insY, two KIT abnormalities encountered in the course of mastocytosis. This allowed us to establish two new cell lines independent of SCF for proliferation, ROSA KIT D816V and ROSA KIT Delta417-419 insY, which are particularly easy to grow in large quantities, and whose phenotype is similar to that of abnormal mast cells during mastocytosis. These two cell lines can be used for pathophysiologic studies on mastocytosis and for high throughput screening of molecules in search of antiproliferative effects specifically directed against the mutated KIT or against one or other of the intracellular molecules involved in signal transduction induced by mutant KIT. Mastocyte FcεRI Allergie Mastocytoses Kit Stat5 Thérapeutique ciblée Mast cell FcεRI Allergy Mostocytosis Kit Stat5 Targeted therapy
3	Function and distribution of neuronal high-affinity IgE receptors (FcεRI) Song, Jiheon 10 1900 (has links) <p><strong>Background</strong><strong></strong></p> <p>IgE antibodies have high antigen specificity and are the hallmark biomarkers of allergy. IgE binds to high-affinity IgE receptors, known as FcεRI, which are expressed especially on mast cells and basophils. In allergic individuals, antigen binding to IgE that is associated with FcεRI leads to crosslinking of adjacent receptors and subsequently to cell activation, degranulation and/or secretion of bioactive molecules. These molecules together cause minor local tissue reactions such as oedema or itch, but also can cause major systemic reactions such as hypotension, cardiac and respiratory distress or even laryngeal swelling and death. The role of the nervous system in these reactions is usually thought of as secondary. However, in recent years there have been a number of studies suggesting the expression of FcεRI on neurons, opening the possibility that nerves are directly involved in antigen-specific responses and making a previously unrecognized contribution to allergic disease. <strong></strong></p> <p>Based on these previous observations regarding neuronal FcεRI, the current study employed both <em>in vivo</em> and <em>in vitro</em> approaches with the following objectives:<strong></strong> <ol> <li>To confirm the presence of FcεRI on peripheral nerves and demonstrate that they are functionally active under different conditions of IgE sensitization.</li> <li>To examine the pathways involved in neuronal activation by IgE bound to FcεRI and compare and contrast these to those already established for mast cells and basophils.</li> </ol></p> <p><strong>Methods and Results</strong></p> <p>A potential role of neuronal FcεRI in the IgE-dependent allergen avoidance behaviour of sensitized mice presented with antigen in sucrose solution was assessed based on published evidence for the involvement of peripheral nerves in this response.</p> <p>Chimeric mice with a wild-type nervous system but lacking FcεRI on hematopoietic cells including mast cells and basophils, failed to exhibit aversive behaviour, whereas mice with FcεRI-bearing hematopoietic cells demonstrated the normal aversive response confirming that FcεRI expression on mast cells is necessary for development of allergen avoidance. While immunohistochemical staining could detect IgE bound to mast cells in tissue samples, no IgE was detected on nerves where the nerves were identified by using a pan-neuronal marker, PGP 9.5, in the intestine of either normal or passively sensitized C57BL/6 and BALB/c mice. Similarly, traditional FACS analysis clearly identified FcεRI on cultured mast cells, but these methods provided no evidence for expression of FcεRI or IgE binding on superior cervical ganglion (SCG) and dorsal root ganglion (DRG) neurons in culture.</p> <p>To determine evidence for functional FcεRI on neurons <em>in vitro</em>, intracellular calcium increase was assessed as a measure of cell activation following sensitization and antigen challenge. Using both microscopy and FACS analysis, calcium fluorophore (Fluo-3, AM) increase could be detected in SCG or DRG that were activated with the calcium ionophore A23187 but not following antigen challenge.</p> <p><strong>Summary: </strong>The current study found no evidence for the presence of the FcεRI on neurons <em>in situ</em> or their sensitization by IgE actively or passively using several different approaches both in tissues and cultured SCG or DRG neurons. Possible explanations for the resultant discrepancy with previously published works are discussed.</p> / Master of Science (MSc) IgE FcεRI SCG allergy high-affinity IgE receptor Molecular and Cellular Neuroscience Molecular and Cellular Neuroscience
4	Molecular Studies of Mast Cell Migration and Apoptosis : Two Ways of Regulating Mast Cell Numbers at Sites of Inflammation Alfredsson, Jessica January 2005 (has links) <p>Upon activation mast cells release numerous proinflammatory mediators. With this feature, mast cells play an important role in host defense against pathogens, and are involved in tissue remodeling and wound healing. However, in cases of excessive inflammation the effects of mast cells are detrimental. This is observed in allergy, asthma, rheumatoid arthritis, atherosclerosis, certain types of heart failure, and in several other chronic destructive inflammations. Mast cell numbers are typically increased at inflammatory sites. There they act both directly, as effector cells, and in a regulatory manner, secreting agents that recruit and activate other immune cells.</p><p>The studies presented here investigated mechanisms regulating mast cell numbers at sites of inflammation, focusing on cell migration and regulation of survival/apoptosis. We report that SCF-induced mast cell migration requires p38 MAP kinase activity. Moreover, we found that SCF-mediated mast cell survival is regulated through downregulation of the proapoptotic Bcl-2 family member Bim, as well as through phoshorylation of Bim. SCF seems to control Bim protein levels via FOXO transcription factors, and to induce phosphorylation of Bim via the Mek/Erk and the PI3-kinase/Akt signaling pathways. Furthermore, mast cell death triggered by deprivation of SCF and/or IL-3 involves the Bim protein, as demonstrated using <i>bim</i>-/- mast cells. Additional studies revealed that IgE-receptor activation, which occurs in allergy, promotes both prosurvival and proapoptotic signaling events. This includes upregulation of Bim and the prosurvival Bcl-X<sub>L</sub> and A1, as well as phosphorylation of Akt, FOXO factors, GSK-3β, IκB-α, Bad, and Bim. The simultaneous stimulation of prosurvival and proapoptotic signaling events could be a way to fine-tune the fate of mast cells after IgE-receptor activation and degranulation.</p><p>The new insights about mechanisms involved in mast cell migration and regulation of survival/apoptosis might prove useful for future efforts to design new drugs to be used for mast cell-associated diseases.</p> Pathology mast cell SCF IL-3 FcεRI migration apoptosis Bim Bcl-2 Bcl-XL Akt FOXO MAPK Patologi Pathology Patologi
5	Molecular Studies of Mast Cell Migration and Apoptosis : Two Ways of Regulating Mast Cell Numbers at Sites of Inflammation Alfredsson, Jessica January 2005 (has links) Upon activation mast cells release numerous proinflammatory mediators. With this feature, mast cells play an important role in host defense against pathogens, and are involved in tissue remodeling and wound healing. However, in cases of excessive inflammation the effects of mast cells are detrimental. This is observed in allergy, asthma, rheumatoid arthritis, atherosclerosis, certain types of heart failure, and in several other chronic destructive inflammations. Mast cell numbers are typically increased at inflammatory sites. There they act both directly, as effector cells, and in a regulatory manner, secreting agents that recruit and activate other immune cells. The studies presented here investigated mechanisms regulating mast cell numbers at sites of inflammation, focusing on cell migration and regulation of survival/apoptosis. We report that SCF-induced mast cell migration requires p38 MAP kinase activity. Moreover, we found that SCF-mediated mast cell survival is regulated through downregulation of the proapoptotic Bcl-2 family member Bim, as well as through phoshorylation of Bim. SCF seems to control Bim protein levels via FOXO transcription factors, and to induce phosphorylation of Bim via the Mek/Erk and the PI3-kinase/Akt signaling pathways. Furthermore, mast cell death triggered by deprivation of SCF and/or IL-3 involves the Bim protein, as demonstrated using bim-/- mast cells. Additional studies revealed that IgE-receptor activation, which occurs in allergy, promotes both prosurvival and proapoptotic signaling events. This includes upregulation of Bim and the prosurvival Bcl-XL and A1, as well as phosphorylation of Akt, FOXO factors, GSK-3β, IκB-α, Bad, and Bim. The simultaneous stimulation of prosurvival and proapoptotic signaling events could be a way to fine-tune the fate of mast cells after IgE-receptor activation and degranulation. The new insights about mechanisms involved in mast cell migration and regulation of survival/apoptosis might prove useful for future efforts to design new drugs to be used for mast cell-associated diseases. Pathology mast cell SCF IL-3 FcεRI migration apoptosis Bim Bcl-2 Bcl-XL Akt FOXO MAPK Patologi Pathology Patologi
6	Mise en évidence de nouvelles lignées mastocytaires humaines exprimant un récepteur aux IgE fonctionnel et différents types de récepteurs KIT, utilisées comme modèles d'étude de l'allergie et des mastocytoses. Saleh, Rosine 21 March 2013 (has links) (PDF) Les mastocytes (MCs) sont issus des cellules hématopoïétiques multipotentes non engagées, CD34+, et jouent un rôle important dans l'initiation de la réponse immunitaire innée et adaptative, ainsi que dans les réactions allergiques IgE-dépendantes. Les mastocytoses sont des néoplasies myéloïdes caractérisées par une accumulation anormale et l'activation fréquente de mastocytes dans divers organes. Les organes généralement atteints sont la moelle osseuse, la peau, le foie et le tractus gastro-intestinal. Elles sont caractérisées dans l'immense majorité des cas par la présence de mutations acquises de la structure du récepteur KIT (plus particulièrement KIT D816V) qui induisent l'activation constitutive de ce récepteur à activité tyrosine kinase intrinsèque. Le traitement actuel de ces pathologies est décevant car la mutation KIT D816V résiste à la plupart des inhibiteurs de tyrosine kinases (ITKs).Dès le début de ma thèse, nous avons pu établir, à partir de cellules souches hématopoïétiques de sang de cordon humain normal cultivées à long terme en présence de stem cell factor (SCF), une nouvelle lignée mastocytaire humaine stable, dénommée ROSA KIT WT, restant strictement dépendante pour sa survie et sa prolifération du SCF, exprimant le récepteur de haute affinité aux IgE (FcεRI), et présentant un récepteur KIT de structure normale. Cette lignée, facile à cultiver en grandes quantités, permet d'envisager l'étude approfondie des évènements intracellulaires menant à l'activation mastocytaire IgE-dépendante et la mise au point de tests de criblage à haut débit dans le domaine de la thérapeutique anti-allergique et/ou anti-inflammatoire.Par ailleurs, afin de pouvoir étudier le rôle transformant des mutants de KIT retrouvés au cours des mastocytoses, nous avons transfecté les cellules ROSA KIT WT par des vecteurs lentiviraux apportant une construction codant pour le KIT muté en D816V ou le KIT muté Delta 417-419 insY. Nous avons ainsi obtenu deux nouvelles lignées mastocytaires humaines SCF-indépendantes, ROSA KIT D816V et ROSA KIT Delta 417-419 insY, pour lesquelles nous avons montré qu'il existe une activation constitutive de KIT, mais aussi de STAT5 et d'AKT. Ces deux lignées de pourront être utilisées soit pour étudier l'impact des mutations de KIT sur la signalisation intracellulaire, soit pour le criblage molécules à activité antiproliférative potentielle dirigées soit contre KIT muté, soit contre l'une ou l'autre des molécules intracellulaires impliquées dans la transduction du signal KIT muté Mastocyte FcεRI Allergie Mastocytoses Kit Stat5 Thérapeutique ciblée
7	Regulační úlohy proteinů PAG a CSK v FcɛRI signalizaci žírných buněk / Regulatory roles of PAG and CSK in FcɛRI signaling of mast cells Potůčková, Lucie January 2017 (has links) 8 1 ABSTRACT (EN) This thesis is focused mainly on understanding mechanisms of regulatory roles of C-terminal Src kinase (CSK) and phosphoprotein associated with glycosphingolipid- enriched microdomains (PAG) in the high-affinity IgE receptor (FcɛRI)-mediated signaling of murine mast cells. FcɛRI activation is initiated by aggregation of the receptor by complexes of multivalent antigen with IgE, followed by activation and enhanced activities of protein tyrosine kinases, phosphatases, adaptor proteins and number of other signal transduction molecules. The signaling events result in mast cell degranulation and release of variety of proinflammatory mediators, responsible for initiation of allergy and other inflammatory diseases. Understanding the function of key regulatory molecules controlling FcεRI-mediated mast cell activation, degranulation, and cytokines production could have therapeutic impact. CSK is a major negative regulator of Src family tyrosine kinases (SFKs) that play a critical role in various immunoreceptor signaling events. However, its function in mast cell activation has not been completely understood. Because of its cytoplasmic localization, CSK was assumed to be brought to the vicinity of the plasma membrane- bound SFKs via binding to membrane-bound adaptors and PAG was a major candidate....
8	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

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