Global ETD Search

21	GB virus C interactions with HIV: effects on immunoactivation and mechanisms of immunomodulation Bhattarai, Nirjal 01 May 2013 (has links) GB virus C (GBV-C) is a lymphotropic human virus which was recently assigned to a new genus Pegivirus within the Flaviviridae family. GBV-C infection is found worldwide, and viremia prevalence is about 1% to 4% in healthy blood donors and up to 42% in HIV-infected individuals. In clinical studies, GBV-C coinfection is associated with prolonged survival of HIV-infected individuals. GBV-C infection modestly alters T cell homeostasis in vivo through various mechanisms, including modulation of chemokine and cytokine release and receptor expression, and by diminution of T cell activation, proliferation and apoptosis, all of which may contribute to improved HIV clinical outcomes. This thesis explores the interrelationship between GBV-C infection and immunoactivation and identifies potential mechanisms by which GBV-C reduces immunoactivation. Chronic HIV infection is associated with persistent immunoactivation which contributes to the immune dysfunction. In particular, T cell activation supports HIV replication and correlates with HIV viral load (VL). Persistent immunoactivation also contributes to the depletion of uninfected bystander cells by mechanisms of activation induced cell death (AICD). Although treatment with combination antiretroviral therapy (cART) reduces HIV VL, T cell activation does not return to levels found in HIVuninfected individuals. Sustained immunoactivation is also associated with lower virological response to cART suggesting therapies to reduce immunoactivation in combination with cART may benefit HIV-infected individuals. Since GBV-C infection is associated with reduced immunoactivation, understanding mechanisms by which GBV-C modulates these signaling pathways may provide insights into novel approaches to treat HIV infection and chronic immunoactivation. The effect of GBV-C infection on T cell activation and IL-2 signaling pathways were studied in a cohort of HIV-positive individuals. GBV-C viremic HIV positive individuals on cART have reduced T cell activation which was significantly associated with higher percentage of immunomodulatory CD3 +CD4-CD8-T cells. Ex vivo GBV-C infection was associated with reduced lymphocyte proliferation in response to IL-2, lower frequency of reactivation of latent HIV and protection against AICD. In vitro expression of GBV-C envelope glycoprotein E2 in CD4+ T cell lines inhibited T cell receptor (TCR) induced IL-2 secretion and inhibited IL-2 signaling pathways. This effect was mediated at least in part by reducing activation of lymphocyte specific tyrosine kinase (Lck). Through deletion mutagenesis, the inhibitory motif within the viral protein was mapped to a region that contains a predicted Lck substrate, a highly conserved tyrosine at position 87 (Y87). Lck phosphorylated GBV-C E2 protein in vitro and mutation of Y87 residue abolished the inhibitory effects of E2 protein. Synthetic peptides containing this inhibitory motif competed for Lck phosphorylation and inhibited TCR signaling in primary human T cells. The number of GBV-C infected T cells was found to be low in vivo, yet GBV-C infection reduced global TCR signaling. GBV-C RNA and E2 protein were detected in extracellular microvesicles purified from GBV-C infected human serum or the culture supernatant of E2 expressing cells, and these microvesicles inhibited TCR signaling in uninfected bystander T cells. Together, these data identify a novel mechanism by which GBV-C infection leads to global reduction in T cell activation and IL-2 signaling in the infected host, and provide a working model in which the viral envelope glycoprotein serves as a substrate for Lck and competes for Lck phosphorylation in the infected T cells and in uninfected bystander T cells. GBV-C HIV IL-2 Immune Activation T cells TCR Cell Biology
22	Gab3 is Required for IL 2 and IL 15 Induced NK Cell Proliferation and is a Key Determinate for Tumor Clearance and Controlling Trophoblast Invasion Sliz, Anna January 2019 (has links) No description available. Immunology immunology natural killer cell trophoblast pregnancy IL 2 IL-15 Gab3
23	In Vitro Studies of Tyr-MIF-1 With Human Lymphocytes Chi, David S., Strimas, John H., Kastin, Abba J. 01 January 1989 (has links) Our previous report showed that the brain peptide Tyr-MIF-1 (Tyr-Pro-Leu-Gly-NH2) blocks the inhibitory effect of morphine sulfate on E-rosette formation by human peripheral blood lymphocytes (PBL). In this study, additional in vitro effects of Tyr-MIF-1 on human PBL were studied. The percentages of positive cells for CD 2, a sheep erythrocyte receptor, CD 4 and CD 8 were unchanged after incubation of PBL with morphine or morphine plus Tyr-MIF-1. Tyr-MIF-1 was not mitogenic by itself. The addition of Tyr-MIF-1 did not increase the proliferative response of PBL to Con A, although morphine did. Tyr-MIF-1 did not activate PBL to produce IL 2 nor did it affect the production of IL 2 by Con A-stimulated PBL. The results suggest that Tyr-MIF-1 does not directly modulate CD 2, CD 4 and CD 8 expression, does not alter the proliferative response of PBL, and does not affect the production of IL 2. CD 2 IL 2 morphine naloxone peripheral blood lymphocyte proliferative response Tyr-MIF-1
24	Evaluation of IL2 and HLA on the Homeostasis and Function of Human CD4 and CD8 T Cells Durost, Philip A. 15 September 2017 (has links) Homeostasis of human T cells is regulated by many factors that control proliferation, differentiation of effector cells and generation of memory. Our current knowledge of the mechanisms controlling human T cell homeostasis in vivo is based on experiments in small animal models. However many differences exist between immune systems of mice and humans, including cell composition, function, and gene expression. Humanized mouse models have shown great value in the study of human immunobiology. I have used novel humanized mouse models to examine the role of human MHC (HLA) and human IL2 in CD8 T cell and CD4 regulatory T cell (Treg) homeostasis. To study human CD8 T cells I engrafted CD8 T cells from healthy donor PBMC into NOD-scid IL2rgnull (NSG) mice that lacked expression of murine MHC and that expressed HLA-A2. My data demonstrate that CD8 T cell survival and effector function required the presence of HLA-A2, helper function from human CD4 T cells and exogenous human IL2. To study human Treg homeostasis I used NSG mice engrafted with human fetal thymus and hematopoietic stem cells (BLT model). NSG-BLT mice support the growth of human thymic tissue and enable the efficient development of HLA-restricted Treg and conventional T cells. Using an AAV vector to express human IL2, I demonstrated that functional human Treg but not conventional T cells increased in number in NSG-BLT mice and that this coincided with increases in activated human NK cells. Overall my research has revealed that HLA and human IL2 have an essential role in human T cell survival and function in vivo. IL-2 HLA Treg T cell CD4 CD8 GVHD AAV8 gene therapy Immunity
25	Suppressor of TCR signaling-2 (STS-2) suppresses arthritis development in mice / Suppressor of TCR signaling-2 (STS-2)はマウスにおける関節炎発症を抑制する Okabe, Namiko 26 March 2018 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20971号 / 医博第4317号 / 新制\|\|医\|\|1026(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授河本宏, 教授濵﨑洋子, 教授松田秀一 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM suppressor of TCR signaling-2 IL-2 animal model collagen-induced arthritis rheumatoid arthritis 490
26	Combined effects of cyclosporine and prednisone on t-cell cytokine production in healthy dogs Moore-Henderson, Brittany 09 December 2022 (has links) (PDF) Cyclosporine and prednisone are immunosuppressive drugs that are commonly used in combination for the treatment of immune-mediated diseases, and have been shown to individually cause significant suppression of IL-2. Currently, no studies have been performed to determine how a combination of the two drugs would impact suppression of IL-2, and if an additive or synergistic effect on cytokine production could be demonstrated, as in studies of other species. An additive effect of immunosuppression associated with this drug combination could allow clinicians to decrease dosages of drugs, thereby reducing drug costs and minimizing adverse drug side effects. In a cross-over study design using six healthy dogs, the expression of IL-2 was affected with administration of cyclosporine, prednisone, or a combination of each drug. However, there was no significant difference in the level of immunosuppression compared to cyclosporine alone. Small sample size and the dosages of each drug used potentially affected the strength of the results. cyclosporine IL-2 immune mediated diseases immunosuppression prednisone Small or Companion Animal Medicine
27	Notch1 Modulation of Lymphoid Target Genes Cho, Ok Hyun 01 September 2009 (has links) Over the past decades, information has accumulated concerning the mechanism how an exterior signal induced by ligand on neighboring cells is transmitted to the nucleus through the Notch receptor and the cellular effects of Notch signaling on the regulation of differentiation, proliferation and apoptosis in many cell types. However, the function and the mechanism of Notch signaling in peripheral T cells still remains to be addressed. Therefore, we asked whether Notch1 is involved in CD8+ cytolytic effector T cell (CTLs) maturation and effector functions and how Notch1 exerts its cellular function in the nucleus and in the cytoplasm. The maturation of naïve CD8+ T cells into CTLs is a critical feature of a functional adaptive immune system. Development of CTLs depends, in part, upon the expression of the transcriptional regulator, Eomesodermin (EOMES), which is thought to regulate the expression of two key effector molecules, perforin and granzyme B. In addition, the data from previous studies in our lab showed that Notch signaling results in the activation of NF-κB, IFN-γ secretion and cell proliferation both in CD4+ and CD8+ T cells. Therefore, we hypothesized that Notch1 may be involved in CD8+ T cell maturation and effector function. We observed that Notch1 regulates the expression of EOMES, perforin and granzyme B through direct binding to the promoters of these crucial effector molecules. By abrogating Notch signaling, both biochemically as well as genetically, we conclude that Notch activity mediates CTL development through direct regulation of EOMES, perforin and granzyme B. We further investigated the molecular steps leading to the formation of intracellular Notch1 (N1ICD)/CSL (also known as CBF1/RBP-Jκ in mammals; Suppressor of Hairless in Drosophila; and Lag-1 in C. elegans) with other co-factors in target promoters of Notch1 signaling. We proposed that the association of two nuclear complexes with N1ICD controls the transcription of genes, allowing the development of effector CTL in the immune system. Recent studies proposed a model where Notch1 colocalizes with CD4, a component of the immune synapse, upon T cell stimulation and directly associates with p56Lck and CD28, as well as PI3K. However, the link between Notch and the TCR signalosome needed further investigation. We found that Notch1 functions as a scaffold, associated with the cytosolic components, Carma1, Bcl10, PKCθ and the IKK complex upon TCR stimulation, leading to the activation of NF-κB and IL-2 production. We further showed that the N-terminal region of N1ICD is essential for interaction with Carma1 and that deficiency of Notch1 abolishes the nuclear binding of NF-κB on the il- 2 promoter, leading to reduced IL-2 production. CD8 T cells Granzyme B IFN-gamma IL-2 Notch Perforin Immunology of Infectious Disease
28	DIFFERENTIAL GENE EXPRESSION DURING ISCHEMIA AND REPERFUSION IN AN EXTRACORPOREAL SMALL BOWEL PERFUSION MODEL IN SWINE / Differentielle Genexpression während Ischämie und Reperfusion im Modell der extrakorporalen Dünndarmperfusion am Schwein Hosseini, Seyed Mehdi 30 October 2002 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Ischämie-Reperfusion Differential Display IL-6 IL-2 HSP70 IFN-Gamma E-Selektin ischemia-reperfusion differential display IL-6 IL-2 HSP70 IFN-gamma E-selectin W
29	T-cell mediated suppression of neuroblastoma following fractalkine gene therapy is amplified by targeted IL-2 Zeng, Yan 02 February 2006 (has links) Das Induzieren und Aufrechterhalten einer tumor-protektiven Immunität sind wesentliche Ziele in der Immuntherapie des Neuroblastoms. Eine Erhöhung der Anzahl von tumor-infiltrierenden Leukozyten könnte ein Weg sein, um dieses Ziel zu erreichen. Fractalkine ist ein besonderes TH1 CX3C Chemokin, welches sowohl Adhäsion und Migration von Leukozyten vermittelt. Gerichtetes IL-2 (ch14.18-IL-2) wurde durch eine genetische Fusion von anti-GD2 Antikörper mit IL-2 hergestellt, damit IL-2 spezifisch in das Mikromilieu von Neuroblastomen gebracht werden kann. In dieser Arbeit habe ich die Hypothese getestet, dass Gentherapie mit dem Chemokin Fractalkine (FKN) eine wirksame Antineuroblastom-Immunantwort induziert, welche durch gerichtetes IL-2 amplifiziert wird. Zu diesem Zweck wurden NXS2-Zellen genetisch verändert, damit sie murines FKN produzieren (NXS2-FKN). Transkription und Expression des mFKN Gens konnte in NXS2-FKN Zellen und Tumorgewebe gezeigt werden. Die chemotaktische Eigenschaft von FKN wurde sowohl in vitro als auch in vivo gezeigt. FKN zeigte eine Reduktion des Primärtumorwachstums, welches durch gerichtetes IL-2 mit nicht-kurativen Dosen von ch14.18-IL-2 deutlich verbessert wurde. Ferner wurden experimentelle Lebermetastasen nur in den Mäusen komplett eradiziert, welche die Kombinationstherapie erhalten haben. Die Mechanismen, welche an dieser Antitumorantwort beteiligt sind, schließen eine wirksame T-Zell-Aktivierung (Hochregulation von CD69, CD25, und von TNF-alpha und INF-gamma), sowie eine Erhöhung der tumorspezifischen CTL-Aktivität mitein. Die Depletion von CD4+ und CD8+ T-Zellen in vivo hat diesen therapeutischen Effekt aufgehoben, was die essentielle Rolle von T-Zellen in diesem immuntherapeutischen Ansatz unterstreicht. Zusammenfassend konnte ich zum ersten Mal zeigen, dass Chemokin-Gentherapie mit FKN durch gerichtetes IL-2 amplifiziert wird, was eine Kombination dieser beiden Strategien zur adjuvanten Therapie beim Neuroblastom nahe legt. / Induction and maintenance of tumor-protective immunity are the major goals of neuroblastoma immunotherapy. Enhancing the amount of tumor infiltrating leukocytes might be a way to achieve these goals since they may be associated with residual evidence of the ineffective immune response. Fractalkine is a unique TH1 CX3C chemokine known to induce both adhesion and migration of leukocytes mediated by a membrane-bound and a soluble form, respectively. Targeted IL-2 (ch14.18-IL-2) was constructed by anti-GD2 antibody fused with IL-2 so that IL-2 can be directed into the microenvironment of neuroblastoma tumor. Here, I tested the hypothesis that chemokine gene therapy with fractalkine (FKN) induces an effective anti-neuroblastoma immune response amplified by targeted IL-2. NXS2 cells were engineered to stably produce murine FKN (NXS2-FKN). Transcrip- tion and expression of the mFKN gene in NXS2-FKN cells and tumor tissue were demonstrated. The chemotactic activity of FKN expressed by NXS2 cells was determined both in vitro and in vivo. Importantly, NXS2-FKN exhibited a reduction in primary tumor growth, which was boosted by targeted IL-2 using non-curative doses of ch14.18-IL-2. Furthermore, experimental liver metastases were completely eradicated in mice receiving the combination therapy, demonstrating the induction of a long-lived tumor protective response. The mechanisms involved in antitumor response included effective T cell activation as indicated by the up-regulation of T-cell activation markers (CD69, CD25) and proinflammatory cytokines (TNF-alpha, INF-gamma) as well as the enhancement of tumor specific CTL activity. The depletion of CD4+ and CD8+ T cells in vivo abrogated the therapeutic effect supporting the crucial role of T cells in this immunotherapeutic approach. In summary, I demonstrated for the first time that chemokine gene therapy with FKN is amplified by targeted IL-2 suggesting a combination of both strategies as an adjuvant therapy for neuroblastoma. T-Zellen Fractalkine Neuroblastom ch14.18-IL-2 GD2 Gentherapie Immuntherapie T-cells Fractalkine Neuroblastoma Ch14.18-IL-2 GD2 Gene therapy Immunotherapy 610 Medizin 33 Medizin XH 2104 XH 2115 ddc:610
30	Modulation de la balance lymphocytaire T régulatrice et effectrice dans deux modèles de maladies auto-immunes / Modulation of regulatory T cells and effector T celles balance in two models of autoimmune diseases Jacquemin, Clément 22 October 2013 (has links) Le respect de l’équilibre entre lymphocytes T effecteurs auto-réactifs et lymphocytes T régulateurs (LTreg) est primordial dans le maintien de la tolérance aux antigènes du soi. Les partenaires cellulaires et les mécanismes moléculaires impliqués dans la rupture de l’équilibre de cette balance ne sont pas ou peu connus dans les maladies auto-immunes. Ainsi, les travaux décrits dans cette thèse portent sur le dérèglement de la balance T effecteurs/ Treg dans deux modèles de maladies auto-immunes chez l’homme: le lupus érythémateux systémique et l’anémie hémolytique auto-immune (AHAI). Nous montrons une augmentation de l’expression de la molécule de costimulation OX40L (CD252, TNFSF4) à la surface des cellules présentatrices d’antigène circulantes et infiltrant les tissus chez les patients lupiques. Cette augmentation est corrélée à l’activité de la maladie chez l’adulte comme chez l’enfant. Elle a pour conséquence l’induction de lymphocytes T effecteurs de type Tfh (T follicular helper) et le blocage des fonctions suppressives des Treg, deux acteurs majeurs dans la physiopathologie du lupus. Dans le second projet, nous montrons une augmentation de la proportion de T8reg circulants chez les patients affectés d’une AHAI à anticorps chauds en phase de rémission. Ces Treg expriment le CD25, le FoxP3 et exercent leur fonction suppressive par un mécanisme faisant intervenir l’IL10. De faibles doses d’IL-2 permettent l’expansion de cette population cellulaire in vitro. Ces résultats apportent de nouvelles connaissances dans la physiopathologie de ces deux maladies et offrent des perspectives thérapeutiques potentielles. / Respect of the balance between autoreactive T cells and regulatory T cells (LTreg) is important to maintain tolerance to self-antigens. Cellular partners and molecular mechanisms involved in the disruption of this balance are not or little known in autoimmune diseases.Thus, the work described in this thesis focuses on the disruption of the T effector/ Treg balance in two models of human autoimmune diseases: systemic lupus erythematosus and autoimmune hemolytic anemia (AIHA). We show an increased expression of the OX40L (CD252, TNFSF4) costimulatory molecule at the surface of both circulating and tissues-infiltrating antigen presenting cells in SLE patients. OX40L expression is correlated with disease activity in adults and in children and results in Tfh (follicular helper T) effector cells induction and Treg suppressive functions inhibition, two key mechanisms in the pathogenesis of lupus. In the second project, we show an increase of the circulating T8reg proportion in patients with a warm AIHA in a non-active state. These Treg express CD25, FoxP3 and exert their suppressive function by a mechanism involving IL-10. Low-dose IL-2 allows the expansion of this cell population in vitro. These results provide new insights into the pathophysiology of these diseases and offer potential therapeutic perspectives. Cellule présentatrice d’antigène Lupus OX40L Lymphocytes T folliculaire helper Lymphocytes T régulateurs Anémie hémolytique auto-immune IL-2 Antigen presenting cell Lupus OX40L Follicular helper T cell Regulatory T cells Autoimmune haemolytic anemia IL-2

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