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11	Aspects of interferon alpha signalling in hematopoetic cells Carlsson, Lennart January 2004 (has links) <p>The type I interferons (IFN) are a family of cytokines with pleiothropic activities that include inhibition of viral replication, cell proliferation and activation of the immune system. These properties give the IFNs important physiological and pathological roles in infection and cancer and have led to their therapeutic use for many clinical conditions. In humans, the type I IFNs consist of 12 different IFNa subtypes as well as single IFNb, w and k subtypes. They all compete for binding to a common receptor, consisting of two subunits, IFNAR1 and IFNAR2. In almost all cell types proliferation is inhibited by IFNs as a consequence of the antiviral properties. However, previous studies on human peripheral B-lymphocytes have shown increased survival as well as proliferation upon IFN treatment. </p><p>We established a purification system for extraction of B-lymphocytes from buffy-coat, utilizing density centrifugation in combination with anti-CD19 magnetic beads. In an attempt to identify the molecular mechanisms of increased survival, the expression and/or activation pattern of different signaling proteins were analysed by Western blot. It was previously reported that phosphatidylinositol 3’-kinase (PI3K) physically interacts with the IFNAR complex, via adaptor proteins. Activated PI3K indirectly activates Akt/PKB, a kinase involved in a pathway leading to both survival and proliferation signals. We were able to show a novel signaling pathway - IFN treatment activated Akt/PKB as well as a downstream effector, one member of the Forkhead family (FKHR) was inactivated by phosphorylation and as a consequence p27/Kip1 expression was downregulated. Activation of this pathway resulted in increased survival as measured by TUNEL assay, an effect efficiently counteracted by the the synthetic PI3K inhibitor, LY294002. </p><p>In additional experiments we investigated the molecular mechanisms of proliferation. Activation of B-cells was ensured by using limiting concentrations of anti-IgM antibodies, mimicing natural activation. Using thymidine incorporation, we discovered that IFN treatment increased the sensitivity to anti-IgM stimulation. As a consequence, more cells proliferated as measured by CFSE staining. However, on its own, IFN was unable to induce proliferation. IFN turned out to be as efficient as IL-2, a classical B-lymphocyte growth factor. In order to distinguish proliferation from increased survival, Rb phoshorylation was analysed by Western blot. Phosphorylation induced by anti-IgM was further enhanced by IFN. As we determined earlier, p27/Kip1 expression was downregulated, releasing the cell cycle block. However, p21/Cip1 expression was upregulated but almost exclusively localised to the cytoplasm, therefore unable to perform the classical growth inhibitory functions. We conclude that type I interferons contribute to increased survival as well as proliferation of human primary B-lymphocytes. </p><p>The IFN receptor subunits was studied in a human myeloma cell line (U266), using a variant of which that are totally resistant towards the anti-proliferative properties of IFN. The reason for resistance in clinical situations is seldom elucidated, but is often believed to be due to development of antibodies against interferon. The resistant cells were unable to bind radio-labelled IFN, and through Southern Blot we could determine that the IFNAR1 gene was not functional. Also the IFNAR2 gene was affected, since Northern blot and sequencing detected an aberrant transcript not present in the wild type cells. Karyotyping showed that the cells had 3-4 copies of chromosome 21, but Southern blot did not detect any cytoplasmic region of IFNAR2. The IFN receptors are close to each other on the genome, and a deletion affecting one receptor gene is likely to affect the other as well. We conclude that the IFN resistance in U266Res cells is due to lack of functional receptor subunits.</p> Molecular biology interferon human B-lymphocyte survival proliferation myeloma Molekylärbiologi Molecular biology Molekylärbiologi
12	Aspects of interferon alpha signalling in hematopoetic cells Carlsson, Lennart January 2004 (has links) The type I interferons (IFN) are a family of cytokines with pleiothropic activities that include inhibition of viral replication, cell proliferation and activation of the immune system. These properties give the IFNs important physiological and pathological roles in infection and cancer and have led to their therapeutic use for many clinical conditions. In humans, the type I IFNs consist of 12 different IFNa subtypes as well as single IFNb, w and k subtypes. They all compete for binding to a common receptor, consisting of two subunits, IFNAR1 and IFNAR2. In almost all cell types proliferation is inhibited by IFNs as a consequence of the antiviral properties. However, previous studies on human peripheral B-lymphocytes have shown increased survival as well as proliferation upon IFN treatment. We established a purification system for extraction of B-lymphocytes from buffy-coat, utilizing density centrifugation in combination with anti-CD19 magnetic beads. In an attempt to identify the molecular mechanisms of increased survival, the expression and/or activation pattern of different signaling proteins were analysed by Western blot. It was previously reported that phosphatidylinositol 3’-kinase (PI3K) physically interacts with the IFNAR complex, via adaptor proteins. Activated PI3K indirectly activates Akt/PKB, a kinase involved in a pathway leading to both survival and proliferation signals. We were able to show a novel signaling pathway - IFN treatment activated Akt/PKB as well as a downstream effector, one member of the Forkhead family (FKHR) was inactivated by phosphorylation and as a consequence p27/Kip1 expression was downregulated. Activation of this pathway resulted in increased survival as measured by TUNEL assay, an effect efficiently counteracted by the the synthetic PI3K inhibitor, LY294002. In additional experiments we investigated the molecular mechanisms of proliferation. Activation of B-cells was ensured by using limiting concentrations of anti-IgM antibodies, mimicing natural activation. Using thymidine incorporation, we discovered that IFN treatment increased the sensitivity to anti-IgM stimulation. As a consequence, more cells proliferated as measured by CFSE staining. However, on its own, IFN was unable to induce proliferation. IFN turned out to be as efficient as IL-2, a classical B-lymphocyte growth factor. In order to distinguish proliferation from increased survival, Rb phoshorylation was analysed by Western blot. Phosphorylation induced by anti-IgM was further enhanced by IFN. As we determined earlier, p27/Kip1 expression was downregulated, releasing the cell cycle block. However, p21/Cip1 expression was upregulated but almost exclusively localised to the cytoplasm, therefore unable to perform the classical growth inhibitory functions. We conclude that type I interferons contribute to increased survival as well as proliferation of human primary B-lymphocytes. The IFN receptor subunits was studied in a human myeloma cell line (U266), using a variant of which that are totally resistant towards the anti-proliferative properties of IFN. The reason for resistance in clinical situations is seldom elucidated, but is often believed to be due to development of antibodies against interferon. The resistant cells were unable to bind radio-labelled IFN, and through Southern Blot we could determine that the IFNAR1 gene was not functional. Also the IFNAR2 gene was affected, since Northern blot and sequencing detected an aberrant transcript not present in the wild type cells. Karyotyping showed that the cells had 3-4 copies of chromosome 21, but Southern blot did not detect any cytoplasmic region of IFNAR2. The IFN receptors are close to each other on the genome, and a deletion affecting one receptor gene is likely to affect the other as well. We conclude that the IFN resistance in U266Res cells is due to lack of functional receptor subunits. Molecular biology interferon human B-lymphocyte survival proliferation myeloma Molekylärbiologi Molecular biology Molekylärbiologi
13	CD22 regulates B cell fate via two signaling domains within its cytoplasmic tail / Otipoby, Kevin L., January 2000 (has links) Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 89-105).
14	Regulation of marginal zone B cell migration in the primary IgM antibody response / Rubtsov, Anatoly V. January 2007 (has links) Thesis (Ph.D. in Immunology) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 146-169). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;
15	Polysaccharide specific B cells a study of their development and function / Foote, Jeremy B. January 2009 (has links) (PDF) Thesis (Ph.D.)--University of Alabama at Birmingham, 2009. / Title from PDF title page (viewed on Sept., 2009). Includes bibliographical references.
16	B cell clonal abundance and madcam-1 mediate affinity maturation and fate of germinal center B cells Le, Thuc-vy L. January 2007 (has links) (PDF) Thesis (Ph.D.)--University of Alabama at Birmingham, 2007. / Title from PDF title page (viewed on Sept. 16, 2009). Includes bibliographical references.
17	Intérêt du couple CD5/CD6 dans les lymphocytes B humains / Interest of the CD5 / CD6 couple in human B lymphocytes Le Dantec, Christelle 02 July 2012 (has links) Issues d'un gène ancestral commun, les molécules CD5 et CD6 sont présentes à la surface de tous les lymphocytes T (LT) matures ainsi qu'à la surface de certains lymphocytes B (LB). Ces deux protéines font partie de la famille des « Scavenger Receptor Cystein Rich » (SRCR) protéines mais la régulation, l'expression et les fonctions de ces deux molécules ne sont pas totalement résolues. Ainsi, CD5 est impliquée dans la régulation du récepteur à l’antigène des LB et des LT, dans la tolérance des LB et elle est présente à la surface des LB régulateurs. A l’opposé, CD6 possède un rôle dans la prolifération des lymphocytes, la survie, la migration et l’adhésion cellulaire. Les expressions de CD5 et CD6 diffèrent au sein des LB normaux ainsi qu'en pathologie. Dans le cadre du lupus érythémateux systémique (LES), le nombre de molécules CD5 à la surface des LB CD5+ est réduit. Dans une autre maladie auto-immune (MAI), le Syndrome de Gougerot Sjögren (SGS), l'expression de CD6 à la membrane des LB n'est pas affectée mais la distribution des LB mémoires CD6+, mais pas des LB naïfs, est modifiée par rapport aux témoins sains. En effet, les LB CD6+ sont sous représentés dans le sang périphérique et ce, en raison de leur délocalisation dans les glandes salivaires (GS) des patients. Cette délocalisation est liée à la surexpression d’ALCAM, le ligand naturel de CD6, par les cellules épithéliales au cours du SGS. L'étude de la diminution de l'expression de CD5 à la surface des LB de patients atteints de LES a permis de montrer qu'il existait un défaut dans le processus de la méthylation de l'ADN chez ces patients. Ce même défaut a été retrouvé dans les GS de patients atteints de SGS. Enfin, les LB de patients atteints de leucémie lymphoïde chronique (LLC) sont porteurs des deux molécules à leur membrane. Nous avons testé l'effet in vitro et in vivo d'un l'anticorps monoclonal (Acm) humanisé anti-CD6, T1H, dans la LLC. De façon intéressante, il s’avère que cet Acm favorise la lyse des LB de LLC et ceci, de façon équivalente au rituximab dans un modèle murin in vivo. T1H est internalisé par les LT et est donc inefficace sur ces cellules. Ces résultats nous permettent de conclure que même si les molécules CD5 et CD6 sont proches phylogénétiquement, elles possèdent des fonctions et des modes de régulation différents entre les LB et les LT mais aussi au sein des différentes populations de LB. Une meilleure compréhension des fonctions et des modes d'actions de ces deux protéines ouvre des perspectives thérapeutiques dans le traitement des MAI et de la LLC. / Derived from a common ancestral gene, CD5 and CD6 molecules are present on the surface of all mature T lymphocytes (LT) and some B lymphocytes (LB). These two proteins are members of the "Scavenger Receptor Cystein Rich" family proteins (SRCR) but the regulation, the expression and the function of these molecules is not totally resolved. CD5 is involved in the regulation of antigen receptor in LB and in LT, in the LB tolerance and is present on the surface of regulator B cells. In contrast, CD6 plays a role in lymphocyte proliferation, survival, migration, and cell adhesion. Expressions of CD5 and CD6 differ within normal LB and and LB present in different in pathologies. In the context of systemic lupus erythematosus (LES), the number of CD5 molecules on the surface of CD5+ LB is reduced. In another autoimmune disease (MAI), the Sjogren Syndrome (SS), the expression of CD6 at the membrane of B cells is not affected but the distribution of CD6 + memory LB but not naive LB is changed compared to healthy controls. Indeed, LB CD6 + are underrepresented in the peripheral blood and, it’s due to their relocation in the salivary glands (GS) of patients. This relocation is related to overexpression of ALCAM, the natural ligand of CD6, by epithelial cells in SS. The study of the decreased expression of CD5 on the surface of LB SLE patients has shown that there was a defect in the process of DNA methylation in these patients. The same defect was found in the GS of SS patients. Finally, B cells from chronic lymphocytic leukemia patients (CLL) are holders of the two molecules on their membrane. We tested the effect in vitro and in vivo of a humanized monoclonal antibody (mAb) anti-CD6, T1H, in the CLL. Interestingly, it appears that this mAb promotes lysis of CLL LB and this effect is equivalent to the one that rituximab was shown to have in an in vivo mouse model. T1H is internalized by LT and is therefore ineffective on these cells. These results allow us to conclude that even if the CD5 and CD6 molecules are phylogenetically close, they have different functions and modes of regulation between LB and LT but also within different populations of LB. A better understanding of their functions and action pathway of these two proteins opens up therapeutic perspectives for the treatment of MAI and CLL. CD5 CD6 Lymphocyte B Épigénétique Auto immunité CD5 CD6 B lymphocyte Epigenetic Autoimmunity 571.967 616.079 8
18	Mechanism of IL-2 mediated BACH2 regulation in the control of Human naive B cell differentiation into plasma cells / Mécanisme de régulation de BACH2 par la voie IL-2 lors de la différenciation des lymphocytes B humains en plasmocytes Symington, Hannah Lucy 11 March 2016 (has links) La différenciation terminale des lymphocytes B qui se déroule dans les centres germinatifs des organes lymphoïdes secondaires est l’étape ultime de la réponse T dépendante et aboutit à la production de plasmocytes (PC) à longue durée de vie qui sécrètent des anticorps hautement affins spécifiques de l’antigène et caractéristiques de la réponse immune adaptative. La transition d’une cellule B naïve vers un PC est gouvernée par un réseau de régulation génique bien décrit et est largement influencée par l’intégration de stimuli externes qui contrôlent le devenir des cellules B tels que l’interaction BCR-antigène et les cytokines produites par les cellules T. La stimulation précoce des lymphocytes B humains activés par IL-2, induit la différenciation en PC via une signalisation ERK prolongée entraînant la baisse d’expression de BACH2, un facteur de transcription clef des cellules B. La répression transitoire de BACH2 est suffisante pour déclencher la différenciation en plasmablastes en l’absence d’IL-2, suggérant ainsi qu’il joue un rôle de « verrou moléculaire » de la différenciation en PC. Il est à noter que cette répression forcée de BACH2 aboutit à la production de plasmablastes caractérisés par un phénotype lymphoplasmocytaire. Ce travail de recherche s’est focalisé sur la caractérisation des mécanismes moléculaires régulant l’expression de BACH2 via la voie de signalisation ERK induite par IL-2. Nous avons identifié ELK-1 comme un médiateur de la répression de BACH2 par la voie IL-2/ERK, comme l’atteste sa capacité à se lier avec un élément de régulation d’un enhancer localisé dans l’intron 1 de BACH2, induisant ainsi la répression de l’enhancer et déverrouillant la différenciation en PC. La caractérisation de cet enhancer de BACH2 a confirmé qu’il est régulé de manière dynamique au cours de la différenciation terminale B et qu’il est localisé dans une région sujette aux mutations suggérant qu’il pourrait être impliqué dans la lymphomagenèse. / The terminal differentiation of B cells, which takes places within germinal centres of secondary lymphoid organs, is the ultimate step of a T cell dependent response and results in the generation of long-lived plasma cells (PCs) that secrete protective, antigen-specific, high-affinity antibodies as part of adaptive immunity. The transition of a naive B cell into a PC is governed by a well-characterised gene regulatory network and is heavily influenced by the integration of externally received signals, including BCR-antigen binding and T cell help, such as cytokines which guide B cell fate. The early IL-2 priming of human primary activated B cells triggers PC differentiation through sustained ERK signalling resulting in the down regulation of B cell transcription factor BACH2. Transient BACH2 repression is sufficient to trigger plasmablast differentiation in the absence of IL-2 suggesting that it acts as a key lock of PC differentiation. Importantly, this enforced BACH2 repression results in the generation of plasmablasts with a lymphoplasmacytic phenotype. The focus of this thesis was to characterise the molecular mechanisms regulating BACH2 expression via the IL-2 ERK transduction pathway. We identify ELK-1 as the mediator of IL-2 ERK induced BACH2 downregulation as it binds to a regulatory enhancer element located within intron 1 of BACH2 instigating its repression and unlocking the PC programme triggering differentiation. The characterisation of this BACH2 enhancer confirms that it is dynamically regulated during PC differentiation and is located within a region targeted for mutation suggesting that it may have a potential role in lymphomagenesis. Lymphocyte B Plasmocyte Différenciation Signalisation cellulaire Cytokine B lymphocyte Plasma cell Differentiation Cell signalling Cytokine
19	Revisiting Erk signaling following B cell antigen receptor activation by different stimulatory agents Bartsch, Caren 15 September 2016 (has links) No description available. 610 Erk BCR signaling Grb2 Sos RasGRP B lymphocyte Fc receptors Medizin (PPN619874732) Immunologie {Medizin} (PPN619875453)
20	CD40 Sustains T Cell Activation During Cognate Communication with Resting B Cells: a Dissertation Evans, Dean E. 18 May 1998 (has links) T and B-lymphocytes play an important role in an adaptive immune response. Communication between these two cells may result in either a humoral immune response or tolerance. Communication between T and B-lymphocytes involves a number of inducible cell surface molecules on both T and B-lymphocytes. It was the aim of this project to gain a greater understanding of the role of CD40 in the dynamic communication that occurs between naïve T-lymphocytes and resting B-lymphocytes during cognate communication. Because in vivo antigen specific T-lymphocytes are at low frequency, it is difficult to examine antigen-specific naïve T-lymphocytes. Thus, an in vitro system employing naïve antigen-specific T cell receptor (TCR) transgenic T cells and small resting B-lymphocytes that did not express CD40 was devised to examine the role of CD40 in cognate communication between naïve T-lymphocytes and resting B-lymphocytes. Upon recognition of antigen on resting B-lymphocytes that expressed CD40, T-lymphocytes proliferated, expressed the activation antigens CD69 and CD25, and remained responsive to subsequent antigen challenge. In the absence of CD40, resting B-lymphocytes did not induce sustained proliferation or sustained expression of the activation markers CD69 and CD25 on naïve T-lymphocytes, and their recovery was decreased compared to naïve T-lymphocytes that recognized antigen on resting B-lymphocytes that expressed CD40. Naïve T-lymphocytes, however, remained responsive to subsequent antigen challenge after recognition of antigen on resting CD40-/- B-lymphocytes. Recognition of antigen on resting CD40-/- B-lymphocytes also resulted in increased recovery and antigen responsiveness of T-lymphocytes when compared to controls without antigen, The role of CD40 in sustaining activation of naïve T-lymphocytes may be unique to resting B-lymphocytes, since proliferation of naïve T-lymphocytes in response to dendritic cells that did not express CD40 was similar to proliferation of naïve T-lymphocytes in response to dendritic cells that expressed CD40. The mechanism by which CD40 sustained activation of naïve T-lymphocytes was investigated by examining the induction of various costimulatory molecules on resting CD40+/- and CD40-/- B-lymphocytes during cognate interaction with naive T-lymphocytes. Induction of B7-1, upregulation of CD44 and ICAM-1, and sustained but not initial induction of B7-2 required that CD40 be expressed on resting B-lymphocytes. Expression of B7-1 and CD44H was not required for proliferation of naïve T-lymphocytes in response to antigen presented on resting B-lymphocytes. However, sustained expression of B7-2 was crucial for proliferation of naïve T-lymphocytes in response to antigen presented on resting B-lymphocytes. Antigens, CD40 Lymphocyte Activation Antigens, Differentiation, B-Lymphocyte Academic Dissertations Life Sciences Medicine and Health Sciences

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