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11	TWO PATHWAYS OF SHEDDING OF L-SELECTIN AND CD23 FROM HUMAN B-LYMPHOCYTES Gu, Baijun January 2000 (has links) Lymphocytes from patients with B-chronic lymphocytic leukemia (B-CLL) express large numbers of P2X7 receptors for extracellular adenosine triphosphate (ATP). Activation of P2X7 receptors induces multiple downstream effects, of which the best documented is the opening of an ionic channel that is selective for divalent cations. Another effect of ATP is to induce the shedding of L-selectin (CD62L), a molecule which is involved in the adhesive interactions of lymphocytes on endothelial cells. High levels of soluble L-selectin and CD23 are found in the serum of patients with B-CLL, although the mechanisms involved in their production are poorly characterized. Because extracellular ATP causes shedding of L-selectin, we studied the effect of ATP on shedding of CD23, an adhesion molecule expressed on the surface of B-CLL lymphocytes. ATP induced the shedding of CD23 at an initial rate of 12% of that for L-selectin, while the EC50 of ATP (35 uM) and BzATP (10 uM) was identical for shedding of both molecules. Inactivation of the P2X7 receptor by pre-incubation with OxATP, an irreversible inhibitor of P2X7 purinoceptor, abolished ATP-induced shedding of both molecules. Moreover, KN-62, the most potent inhibitor for the P2X7 receptor inhibited ATP-induced shedding of both CD23 and L-selectin with the same IC50 (12 nM). Ro 31-9790, a membrane permeant zinc chelator which inhibits the phorbol-ester stimulated shedding of L-selectin also inhibited shedding of CD23 from B-CLL lymphocytes, but the IC50 was different for the two shed molecules (25 versus 1 ug/ml respectively). Although L-selectin was completely shed by incubation of cells with phorbol-ester no CD23 was lost under these conditions. Also, Ca2+ inhibits ATP-induced CD23 shedding but not L-selectin shedding. Since soluble CD23 and L-selectin are found in the serum of normal subjects and B-CLL patients, the expression of these two adhesion molecules on lymphocytes before and after transendothelial migration was studied in an in vitro model of this process. In normal and B-CLL subjects, 71�b5% of L-selectin from both T and B cells and 90% of CD23 from B cells was lost following transmigration, while the expression of a range of other adhesion molecules such as VLA-4, ICAM-1, LFA-1 and CD44 was unchanged. Lymphocytes incubated with OxATP retained their capacity for transendothelial migration and showed the same loss of L-selectin as control leukaemic lymphocytes. Ro 31-9790, which can protect ATP-induced both L-selectin and CD23 shedding, had no effect on inhibiting L-selectin and CD23 lost during transmigration. These data show the presence of a second pathway for the downregulation of L-selectin and CD23 from the lymphocyte surface. Data in vivo from 'knock-out' mice show that L-selectin is essential for the emigration of lymphocytes through high endothelial venules into lymph nodes. The migration of normal and B-CLL lymphocytes across confluent human umbilical vein endothelial monolayers was studied in an in vitro model of this process. Lymphocytes treated with ATP or BzATP showed 56�b25% or 67�b16% loss of L-selectin on the surface and 36�b24% or 64�b19% decrease of transmigration, respectively, while OxATP, which does not alter the L-selectin level, had no effect on lymphocyte transmigration. Further experiments examined this correlation between L-selectin expression and lymphocyte transendothelial migration in this model system. A quantitative assay for cell surface L-selectin showed that expression of L-selectin was lower on B-CLL lymphocytes (8,880�b5,700 molecules/cell) than on normal lymphocytes (29,500�b7,500 molecules/cell, p less than 0.001). Also the rate of transmigration of B-CLL lymphocytes (1.5�b0.9 migrated cells/HUVEC) was lower than normal peripheral lymphocytes (2.4�b0.9 migrated cells/HUVEC, p=0.04). Incubation of lymphocytes in complete medium for 24 hrs increased the expression of L-selectin on B-CLL lymphocytes by 1.5 to 2 fold while the normal lymphocyte L-selectin remained at the initial level. This upregulation of B-CLL L-selectin correlated with a 2 fold increased rate of transendothelial migration. A correlation was found between L-selectin expression on lymphocytes and their ability for transendothelial migration (r^2=0.6). This study shows that the adhesion molecules L-selectin and CD23 can be lost from lymphocytes by two different physiological pathways. One is by P2X7 receptor activation by extracellular ATP while the second is activated by transendothelial migration of these cells. A second finding is that B-CLL lymphocytes have lower level of L-selectin expression and an impaired ability for transendothelial migration compared with normal peripheral blood lymphocytes. Do these results explain the high serum levels of soluble L-selectin and CD23 observed in B-CLL? Although B-CLL lymphocytes do not recirculate as rapidly as normal peripheral blood lymphocytes, the greatly increased number of leukaemic cells in B-CLL ensures that much more soluble L-selectin and CD23 is generated during the recirculation of these cells through the body.
12	Bakterielles Superantigen verstärkt die Atemwegsinflammation und bronchiale Atemwegsreagibilität in einem Mausmodell der allergischen Sensibilisierung Rückert, René 26 June 2000 (has links) Asthma Bronchiale (AB) ist eine chronisch- obstruktive, teilweise reversible Entzündung der Atemwege, deren klinisches Korellat die bronchiale Hyperreagibilität (BHR) ist. Es lassen sich aufgrund ethiologischer Faktoren extrinsiches und intrinsisches AB unterscheiden, wobei ersteres auf einer allergischen Sensibilisierung und letzteres auf irritativen oder infektbedingten entzündlichen Prozessen beruht. In der vorliegenden Arbeit wurde der Einfluß von bakteriellem Superantigen auf die Entzündungsreaktion und die bronchiale Hyperreagibilität untersucht. Stapylococcal enterotoxin B (SEB) wurde hierbei als Modellsubstanz in einem Mausmodell eingesetzt, da SEB produzierende Staphylokokken im Nasenrachenraum von Asthmatikern nachgewiesen werden konnten. Nasale Applikation von SEB induzierte in C57BL/6 Mäusen eine Entzündungsreaktion mit Influx von Lymphozyen und eosinophilen Granulozyten sowie gesteigerte Produktion von IL-4, IL-5 und TNF-alpha in der Lunge, welches in der Histologie und Bronchiallavage nachgewiesen wurde. Desweiteren führt SEB allergenunabhängig zur Ausbildung von BHR. SEB Applikation in einem Mausmodell der allergischen Sensibilisierung (gegen Ovalbumin in C57BL/6 Mäusen) verstärkt die allergische Entzündung in der Lunge und die BHR. CD23 (Low-Affinity IgE Rezeptor) Knock out Tiere zeigen nach allergischer Sensibilisierung und SEB Behandlung keinen Anstieg der TNF-alpha Produktion und keine Hyperreagibilität. Aus diesen Ergebnisse läßt sich schlußfolgern: I. Bakterielles Superantigen induziert das Vollbild des intrinsischen AB im Tiermodell. II. Bakterielles Superantigen kann das extrinsische, allergische AB verstärken. III. Der CD23 Rezeptor ist essentiell für die TNF-alpha Produktion und die Induktion von BHR. Diese Resultate sollten in klinischen Studien am Patienten überprüft werden, da aufgrund der hier vorliegenden Daten zu erwarten ist, daß Antibiotikatherapie, und damit Elimination superantigenproduzierender Bakterien im Nasenrachenraum, die klinische Symptomatik des AB reduzieren kann. / Asthma bronchiale (AB) is an obstructive, partially reversible chronic inflammatatory disease of the small airways, which clinical correlate is represented by airway hyperreactivity. Based on etiological factors, AB can be divided in extrinsic and intrinsic AB, where the first depends on an allergic sensitization and the latter on airway irritation by environmental factors or airway inflammation due to viral or bacterial infection. In this thesis, the role of bacterial superantigens in airway inflammation and -hyperreactivity is analyzed. Staphylococcal enterotoxin B (SEB) was used as a prototypic substance, since SEB producing Staphylo-coccal aureus can be found in the nose and pharynx of asthmatic patients. Nasal application of SEB in C57BL/6 mice resulted in airway inflammation characterized by an influx of lymphocytes and eosinophil granulocytes and increased production of IL-4, IL-5, and TNF-alpha, which was analyzed by histology and bronchiolalveolar lavage. Furthermore, SEB induced independent of aller-gens airway hyperreactivity. SEB application in a mouse-model of allergic sensitization (to ovalbumin in C57BL/6 mice) boosts the allergen-induced allergic inflammation and airway hyperreactivity. CD23 (low-affinity IgE receptor) knock out mice showed no increased TNF-alpha production and no air-way hyperreactivity after allergic sensitization and SEB treatment. These results demonstrate: I. Bacterial superantigen can induce intrinsic AB in a mouse model. II. Bacte-rial superantigen can significantly boost the allergic, extrinsic AB. III. The CD23 receptor is essential for TNF-alpha production and for the induction of airway hyperreactivity. Based on these findings, clinical surveys should be performed, since one could expect, that eradication of nasal bacterial carriage and therefore local superantigen sezernation should improve the AB- symptoms in affected patients. Asthma Superantigen CD23 Hyperreagibilität OVA Asthma Superantigen CD23 Hyperreactivity OVA 610 Medizin 33 Medizin YB 6400 ddc:610
13	CD23's Role as a Negative Regulator of Allergic Disease: in vivo Effects of Murine CD23 Destabilization and Allelic Mutations Ford, Jill Wallace 01 January 2007 (has links) Through underexpression and overexpression studies, CD23 has been shown to negatively regulate IgE production. To investigate CD23 destabilization and its effects on CD23 shedding and IgE synthesis in vivo, we utilized an anti-CD23 stalk monoclonal (19G5) which has previously been shown to enhance proteolysis of CD23 in vitro. Compared to isotype control-treated mice, mice injected with 19G5 displayed enhanced serum soluble CD23 and IgE. Because 19G5 injection substantially enhanced CD23 shedding, it was useful in investigating the identity of the CD23 sheddase. 19G5 enhanced CD23 shedding in ADAM8-/-, ADAM9-/-ADAM15-/-, and ADAM9-/-ADAM12-/-ADAM15-/- mice, ruling out these ADAMs as candidate CD23 sheddases. Through the use of an ADAM10 inhibitor, we blocked CD23 shedding from murine B cells while increasing CD23 surface levels, and thus we identified ADAM10 as the CD23 sheddase. During the course of the ADAM investigation, we discovered that the 129/SvJ inbred mouse strain carried five amino acid substitutions within its CD23 gene. The mutations resulted in reduced CD23 surface expression and hyper IgE levels in vivo. The hyper IgE phenotype was consistent with a more rapid clearance of Nippostrongylus brasiliensis from the gut of 129/SvJ mice. B cells from 129/SvJ spleens proliferated more rapidly than those from BALB/c after stimulation with IL-4 and CD40 ligand trimer in vitro. However, in vitro IgE levels in supernatants from 129/SvJ B cells were significantly reduced, suggesting that the B cells were no longer responsive to IL-4 in vitro. Although the affinity of the IgE-129/SvJ CD23 interaction was similar to that of the BALB/c, 129/SvJ B cells exhibited a reduced number of IgE binding sites, demonstrating that high levels of CD23 are essential for controlling IgE synthesis. This finding was further confirmed in another disease model, namely the mouse asthma model. Mice overexpressing CD23 displayed suppressed allergic lung inflammation and reduced levels of IgE and Th2 cytokines and chemokines. Overall, the data provide a direct demonstration for CD23's role in regulating IgE production in vivo and suggest that therapies aimed at stabilizing cell surface CD23 would inhibit proteolysis and increase surface expression, and thus would be beneficial in controlling allergic disease. CD23 asthma B cell allergy ADAM10 129/SvJ IgE Medicine and Health Sciences
14	Antibody Feedback Regulation and T Cells Carlsson, Fredrik January 2007 (has links) <p>Antibodies, passively administered or actively produced, regulate immune responses to the antigen they recognize. This phenomenon is called antibody-mediated feedback regulation. Feedback regulation can be positive or negative, resulting in >1000-fold enhancement or >99% suppression of the specific antibody response. The outcome depends on size, structure, dose, and route of administration of the antigen as well as on class and subclass of the regulating antibody. This thesis investigates the role of T cells in antibody-mediated feedback enhancement, using both<i> in vivo</i> and <i>in vitro</i> approaches. IgE-antibodies enhance antibody responses to small soluble proteins. This effect is entirely dependent on the low-affinity receptor for IgE, CD23, and most likely depends on increased antigen presentation by CD23<sup>+</sup> B cells. Strengthening this hypothesis, we show that IgE-mediated CD4<sup>+</sup> T cell proliferation<i> in vitro</i> required the presence of CD19<sup>+</sup> CD43<sup>-</sup> CD23<sup>+</sup> B cells. CD23 has also been shown to negatively regulate immune responses. Transgenic mice overexpressing CD23 are known to have impaired responses to antigens in alum. We here demonstrate that they are normal regarding IgE-mediated enhancement. IgG3 enhances antibody responses, and previous data suggested involvement of complement. We found that IgG3-mediated enhancement works well in mice lacking the only Fc-receptor known to bind IgG3, CD64. Although IgG3 could enhance antibody responses it had no major effect on T cell responses. Complement-receptors 1/2 (CR1/2) are required for the initiation of normal antibody responses. Although mice lacking CR1/2 had impaired antibody responses after immunization with sheep erythrocytes, their specific T cell responses were unaffected. The presented data do not support the idea that increased complement-mediated antigen presentation is a major mechanism behind the involvement of complement in antibody responses. They support the hypothesis that antigens forming complement-containing immune complexes may activate specific B cells by co-crosslinking BCR and CR1/2.</p> Fc receptors B cell T cell antigen presentation complement receptors complement IgE IgG3 CD23 antibody Immunology Immunologi
15	Antibody Feedback Regulation and T Cells Carlsson, Fredrik January 2007 (has links) Antibodies, passively administered or actively produced, regulate immune responses to the antigen they recognize. This phenomenon is called antibody-mediated feedback regulation. Feedback regulation can be positive or negative, resulting in >1000-fold enhancement or >99% suppression of the specific antibody response. The outcome depends on size, structure, dose, and route of administration of the antigen as well as on class and subclass of the regulating antibody. This thesis investigates the role of T cells in antibody-mediated feedback enhancement, using both in vivo and in vitro approaches. IgE-antibodies enhance antibody responses to small soluble proteins. This effect is entirely dependent on the low-affinity receptor for IgE, CD23, and most likely depends on increased antigen presentation by CD23+ B cells. Strengthening this hypothesis, we show that IgE-mediated CD4+ T cell proliferation in vitro required the presence of CD19+ CD43- CD23+ B cells. CD23 has also been shown to negatively regulate immune responses. Transgenic mice overexpressing CD23 are known to have impaired responses to antigens in alum. We here demonstrate that they are normal regarding IgE-mediated enhancement. IgG3 enhances antibody responses, and previous data suggested involvement of complement. We found that IgG3-mediated enhancement works well in mice lacking the only Fc-receptor known to bind IgG3, CD64. Although IgG3 could enhance antibody responses it had no major effect on T cell responses. Complement-receptors 1/2 (CR1/2) are required for the initiation of normal antibody responses. Although mice lacking CR1/2 had impaired antibody responses after immunization with sheep erythrocytes, their specific T cell responses were unaffected. The presented data do not support the idea that increased complement-mediated antigen presentation is a major mechanism behind the involvement of complement in antibody responses. They support the hypothesis that antigens forming complement-containing immune complexes may activate specific B cells by co-crosslinking BCR and CR1/2. Fc receptors B cell T cell antigen presentation complement receptors complement IgE IgG3 CD23 antibody Immunology Immunologi
16	A Study of the Distal Molecular Mechanism by which Beta-2 Adrenergic Receptor Stimulation on a B Cell Regulates IgE Production Padro, Caroline Jeannette January 2013 (has links) No description available. Biology Immunology Neurobiology Pharmacology B cells B lymphocytes Immunoglobulin IgE exosomes allergy asthma p38 MAPK PKA CD23 ADAM10 B2AR adrenergic

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