Global ETD Search

421	Social Influences on Depressive-Like Behaivor Following Neuropathic Injury: A Role for Oxytocin and IL-1β Norman, Greg January 2009 (has links) No description available. Psychobiology Pain oxytocin social IL-1beta depression frontal-cortex inflammation
422	The Potential of IL-19 As a Therapeutic Anti-inflammatory and Angiogenic Cytokine Richards, Jamie Madison January 2015 (has links) Our lab has recently shown that IL-19 is expressed in angiogenic ECs, opening the possibility for its use as a medicine to increase perfusion in patients with PAD. The first aim of the current study is to show IL-19’s ability to increase perfusion in vivo using C57BL/6 wild type and IL-19 KO mice in the hindlimb ischemia (HLI) model. Wild-type mice injected with 10ng/g/day of rmIL-19 after being subject to hindlimb ischemia showed significantly greater levels of perfusion than PBS injected littermates. Immunohistochemistry of harvested gastrocnemius muscle showed a greater level of capillary density in IL-19 injected mice as well. IL-19-/- mice also showed a slower recovery of perfusion in a ligated limb in addition to less CD31 positive cells in gastrocnemius muscle when compared to C57BL/6 wild type mice. IL-19 -/- mice also showed increased perfusion when injected with rmIL-19. The second aim of the study is to show more precisely if IL-19 increases angiogenesis by increasing angiogenic cytokine production, polarizing macrophage phenotype, or by influencing angiogenic and anti-angiogenic factors. Spleen, serum, and bone marrow derived macrophage (BMDM) from mouse models used in Aim 1 showed increased levels of angiogenic cytokines, decreased anti-angiogenic cytokines, and markers of M2 macrophage polarization when IL-19 was injected i.p. or present genetically. The third aim of the study examines whether or not IL-19 can increase perfusion within an atherosclerotic background. It also addresses whether IL-19 can both simultaneously reduce atherosclerosis and increase perfusion. This aim also uses mice lacking LDLR-/- genes to further evaluate these questions. LDLR-/- mice fed a high fat diet for 12 weeks underwent HLI and had perfusion levels measured using Doppler imaging in addition to four weeks of 10ng/g/day of IL-19 or PBS injections. Upon sacrifice mice also had their aortas harvested and stained for plaque measurement. This experiment seeks to demonstrate if IL-19 can increase perfusion on an atherosclerotic background. Additionally, a second set of experiments addresses if LDLR-/- mice injected with recombinant mouse IL-19 (rmIL-19) or PBS for 16 weeks on a HFD in addition to HLI being performed at week 12 showed decreased levels of plaque and increased levels of hindlimb perfusion. These experiments seek to demonstrate if IL-19 can simultaneously reduce atherosclerosis while increasing perfusion. A third set of experiments attempts to evaluate the hypothesis that double knock out mice (DKO) lacking both LDLR and IL-19 genes will have increased plaque after being fed a HFD for 16 weeks. These aims all support the overall hypothesis that IL-19 can increase angiogenesis while additionally proving to be anti-inflammatory and anti-atherogenic in vivo / Physiology Physiology Health Sciences Medicine Angiogenesis Atherosclerosis Cardiovascular Disease Il-19
423	Analyse de la réponse immunitaire contre l'antigène GpIIb-IIIa Filion, Mario C. January 1995 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Tolérance immunitaire Antigène plaquettaire Anergie clonale IL-2 Autoimmunité
424	Single Nucleotide Polymorphisms of the MEFV Gene E148Q Are Highly Associated With Disease Phenotype in Crohn’s Disease / MEFV遺伝子におけるE148Q SNPはクローン病の病型に高度に関与する山田, 聡 23 May 2024 (has links) 京都大学 / 新制・論文博士 / 博士(医学) / 乙第13635号 / 論医博第2326号 / 新制\|\|医\|\|1074(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授齋藤潤, 教授森信暁雄, 教授松田文彦 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM inflammatory bowel disease MEFV gene inflammasome IL-1β stricture 490
425	The Omental Fat Band as an Immunomodulatory Microenvironment for Ovarian Cancer Cohen, Courtney A. 11 June 2013 (has links) Cancer research is evolving. Historically concerned with the mechanisms by which malignant cells circumvent cell death signaling and maintain unchecked proliferation, focus has shifted to the complex interactions between the tumor cell and the surrounding microenvironment. Ovarian cancer has one of the highest incidence-to-death ratios of all cancers, and is typically asymptomatic until the later stages, often resulting in metastasis prior to discovery. Naturally occurring phenotypes like lactation and child-bearing (parity) reduce ovarian cancer incidence, but the mechanisms are not understood. As the primary site for ovarian cancer metastasis, and a secondary lymphoid organ capable of mounting potent innate and adaptive immune responses, we believe the omental fat band (OFB) provides a unique opportunity to study complex interactions within the tumor microenvironment. Additionally, we hypothesize that once understood, leukocyte populations within the OFB could be modulated to disrupt the pro-tumorigenic cascade. Using fluorescence-activated cell sorting (FACS) and quantitative realtime PCR (qRT-PCR), we comparatively evaluated the changes in the compositional immune profile of the OFB as a result of parity and cancer. Parous mice were associated with a reduction in macrophages and neutrophils in the OFB, resulting in an inherent "protective state" that was refractory to metastatic cancer cell growth after intraperitoneal implantation. This indicates that the leukocyte populations within the OFB play an important role in tumor development. Therefore we utilized the potent TH1-type immunomodulatory cytokine IL-12 in a membrane-bound form to circumvent reported side effects, such as hepatic and renal damage, cardiotoxicity and death. Targeted IL-12 delivery to the OFB resulted in delayed disease development, although not protection from subsequent challenge. This was also associated with a reduction tumor-associated macrophages (TAMs) and neutrophils (TANs) within the OFB. Kinetic studies demonstrated that these changes were induced by a significant reduction in neutrophil and macrophage chemoattractants early on in the pro-tumorigenic cascade (7 days post-implantation). This work demonstrates that the OFB is a functionally plastic tissue that can be harnessed and re-mobilized to display an anti-tumorigenic microenvironment. / Ph. D. omentum ovarian cancer metastasis microenvironment parity IL-12
426	Implication of IL-2 and IL-15 in the exhaustion of CD8+ T cells during a chronic viral infection Beltra, Jean-Christophe 03 1900 (has links) L’épuisement des lymphocytes T CD8+ (LT CD8) est une voie de différentiation unique survenant lors de contextes pathologiques particuliers ayant en commun la persistance d’antigènes dans l’hôte, tel que les infections virales chroniques (expl : VIH, hépatites B et C) et différents types de cancers. Il apparait aujourd’hui très clairement que ce mécanisme est à l’origine de l’échec de l’immunité adaptative face à ces pathologies particulièrement néfastes pour l’homme. L’étude de ce processus a mené à la découverte de cible thérapeutiques d’un grand intérêt (« immune checkpoints ») pouvant être ciblées pour corriger et/ou reverser l’épuisement. Les essais thérapeutiques ayant découlés de ces découvertes ont donné des résultats extrêmement prometteurs dans le traitement de plusieurs cancers. Cependant, bien que ces thérapies ciblées permettent un regain temporaire de la fonction des LT CD8+, elles ne permettent pas d’inverser le processus d’épuisement. Il est donc crucial aujourd’hui de se tourner vers les agents causateurs de cet état d’épuisement qui restent très méconnues à ce jour. La famille de cytokines partageant la chaine commune gamma (cytokines gamma c) comprenant l’IL-2 -4 -7 -9 -15 et -21 sont des acteurs solubles clés de l’immunité adaptative. Ces cytokines sont intimement liées aux processus de développement, d’homéostasie, de différenciation et de maintenance des lymphocytes T. Parmi elles, l’IL-2 et l’IL-15 ont un rôle majeur dans le processus de différenciation des LT CD8+ au cours d’une infection virale aigue. Malgré cela, l’implication de ces cytokines dans l’épuisement des LT CD8+ dans un contexte d’infection virale chronique n’a jamais été investiguée. En se basant sur les connaissances actuelles des rôles de l’IL-2 et de l’IL-15 sur la différenciation des LT CD8+ au cours d’une infection virale aigue, nous avons émis l’hypothèse que ces cytokines pourraient promouvoir l’épuisement dans un contexte d’infection virale chronique. Dans un premier temps, nous avons démontré chez l’homme (patients atteints d’hépatite C chronique) et la souris (modèle LCMV Clone 13) que la chaîne beta du récepteur à l’IL-2 (IL2R beta[CD122]) qui se lie à l’IL-2 et l’IL-15 reste sélectivement exprimée à la surface des LT CD8+ épuisés au cours d’une infection virale chronique. De plus, une expression élevée de cette chaîne de récepteur corrèle avec un épuisement plus sévère des LT CD8+ chez l’homme et la souris. En développant un modèle murin dans lequel les LT CD8+ sont déficients pour cette chaîne, nous avons démontré que l’IL-2 et IL-15 contrôlent plusieurs aspects clés du processus d’épuisement. Ces cytokines augmentent l’expression de plusieurs récepteurs inhibiteurs (caractéristiques de l’épuisement) et contrôlent même directement l’expression de certains d’entre eux (notamment 2B4 et TIM-3). L’IL-2 et l’IL-15 dirigent également la différenciation terminale des LT CD8+ vers un état d’épuisement extrême et abrogent de manière irréversible leur potentiel de différenciation en cellules mémoires. Nous montrons donc pour la première fois un rôle clé de l’IL-2 et l’IL-15 dans l’épuisement des LT CD8+ au cours d’une infection virale chronique. Dans un deuxième temps nous avons investigué les fonctions individuelles et redondantes de l’IL-2 et l’IL-15 dans l’épuisement des LT CD8+. Nous avons également déterminé les fenêtres d’actions déterminantes de ces cytokines et les mécanismes intracellulaires clés par lesquels elles contrôlent le processus d’épuisement. L’IL-2 et l’IL-15 coopèrent pour promouvoir l’expression de 2B4 et TIM-3 à la surface des LT CD8+ et ces cytokines semblent collaborer pour diriger leur différenciation terminale. En revanche, les signaux médiés par l’IL-2 pendant la phase de « priming » abrogent sélectivement leur potentiel de différenciation en cellules T centrales mémoires (Tcm) alors que l’IL-15 semble plutôt supprimer celle des T effecteurs mémoires (Tem) pendant la phase chronique. Pour finir, nous avons identifié la voie JAK3/STAT5 comme étant la principale voie intracellulaire par laquelle l’IL-2 et l’IL-15 dirigent l’épuisement des LT CD8+. Au cours de cette thèse, nous avons donc mis en évidence un nouveau rôle de l’IL-2 et l’IL-15 dans l’épuisement des LT CD8+ au cours d’une infection virale chronique. Nos résultats apportent une meilleure compréhension du processus d’épuisement des LT CD8+ et démontrent pour la première fois une implication des cytokines. Nous espérons que ces travaux contribueront à améliorer les stratégies thérapeutiques actuelles contre le cancer et les infections virales chroniques. / CD8+ T cell exhaustion is a unique differentiation pathway which occurs during particular pathological contexts such as chronic viral infections (i.e. HIV, HCV and HBV) and cancers in which antigen (Ag) persists in the host. It appears clear now that this mechanism provokes the failure of adaptive responses against these pathologies and is particularly harmful to humans. The study of this process has led to the discovery of relevant molecules (“immune checkpoints”) that can be targeted to prevent and/or reverse exhaustion. Ensuing clinical trials have provided extremely promising results in the treatment of several cancers. However, although these targeted therapies allow a temporary regain of CD8+ T cell functions they still fail at reversing the exhaustion process. It is thus crucial to investigate the causative factors of such process that remain to be identified. The common gamma-chain (gamma c) family of cytokines which includes IL-2, -4, -7, -9, -15, and -21 are key soluble mediators involved in the development of adaptive immunity. These cytokines are intimately linked to T cell development, homeostasis, differentiation and maintenance. Among them, IL-2 and IL-15 display important functions on CD8+ T cell differentiation during an acute viral infection. However, impact of these cytokines on CD8+ T cell responses during a chronic viral infection remains to be investigated. Based on current knowledge of the functions of IL-2 and IL-15 on CD8+ T cell differentiation during an acute viral infection, we hypothesized that these cytokines promote CD8+ T cell exhaustion during a chronic viral infection. We first demonstrate in a mouse model of chronic viral infection (LCMV clone 13) and patients with chronic HCV that the IL-2-receptor beta chain (IL2R beta [CD122]) a cytokine receptor chain which binds to both IL-2 and IL-15 is selectively expressed on exhausted CD8+ T cells during a chronic viral infection. The intensity of CD122 expression positively correlates with severe exhaustion of CD8+ T cells in mice and humans. Using a mouse model in which CD8+ T cells lack the expression of the IL2R beta-chain, we demonstrate that IL-2 and IL-15 control several aspects of exhaustion. IL-2 and IL-15-dependent signals sustain the expression of several inhibitory receptors (characteristic of exhaustion) on CD8+ T cells and directly control the expression of some of them (e.g. 2B4 and TIM-3). IL-2 and IL-15 also direct the terminal exhaustion of CD8+ T cells and irreversibly abrogate their developmental plasticity toward memory T cell development. Together, we show for the first time key functions of IL-2 and IL-15 in directing CD8+ T cell exhaustion during a chronic viral infection. Next, we investigated the unique and redundant functions of IL-2 and IL-15 on CD8+ T cell exhaustion. We also determined individual time-frames of these cytokines and intracellular pathways by which they control CD8+ T cell exhaustion. IL-2 and IL-15 cooperate to promote 2B4 and TIM-3 expression on CD8+ T cells, and these cytokines likely collaborate to direct terminal exhaustion. In contrast, IL-2-dependent signals during priming preclude subsequent differentiation into central memory cells (Tcm) while prolonged exposure to IL-15 upon viral persistence likely suppresses effector memory cell (Tem) developmental potential. Finally, we demonstrate that the JAK3/STAT5 pathway is the dominant pathway by which IL-2 and IL-15 direct CD8+ T cell exhaustion. This thesis provides evidence of novel functions of IL-2 and IL-15 in directing CD8+ T cell exhaustion during a chronic viral infection. These results increase our understanding of the CD8+ T cell exhaustion process and demonstrate for the first time the involvement of cytokines. We hope that this work will contribute to the improvement of actual therapeutic strategies against chronic viral infections and cancers. CD8 T cell Chronic viral infection exhaustion IL-2 IL-15 memory T cell STAT5 Lymphocyte T CD8 Infection virale chronique épuisement IL-2 IL-15 Cellule T mémoire STAT5
427	Optimizing methods for profiling cytokines in cultures of human cancer cell lines Jang, Inkyung January 2024 (has links) Monoclonal antibody-based immunotherapy has emerged as a promising treatment for B-cell lymphoma, with Rituximab (RTX) IgG1 targeting the CD20 surface protein showing significant clinical success in combination with chemotherapy (Bello & Sotomayor 2007). However, not all patients respond to RTX, whereby further studies are warranted to improve RTX efficacy. In this study, an in-house ELISA method was optimized to analyze cytokines from supernatants from human B cell lymphoma cell lines and monocytic cell cultures. Basal levels of the pro-inflammatory tumor necrosis factor α (TNF-α) and the immunosuppressive interleukin 10(IL-10) cytokines were investigated. The study shows several factors that can affect cytokine measurements in cell lines, such as time of culture, cell passage numbers, and incubation times of standards and samples in the ELISA. Furthermore, the correlation between IL-10 secretion of cell lines and phagocytosis was investigated using supernatant samples from phagocytosis assays of B-cell lymphoma cells treated with RTX and anti-CD47 mAbs. Notably, the pattern of IL-10 production from the samples varied depending on the treated antibodies and not by the intensity of the phagocytosis induced by the mAbs.In summary, this study shows that ELISA methods need to be tailored for analysis of cytokines in cell cultures, and highlights that cytokine levels not necessarily correspond to phagocytosis intensity induced by therapeutic mAbs. ELISA cytokine TNFɑ IL-10 Medical and Health Sciences Medicin och hälsovetenskap
428	IL-33 impacts on the skin barrier by downregulating the expression of filaggrin Seltmann, J., Roesner, L.M., Hesler, F-W. von, Wittmann, Miriam, Werfel, T. 06 1900 (has links) No / IL-33 is a member of the IL-1 family of cytokines that is constitutively expressed in healthy skin and was found to be increased in the skin of patients with atopic dermatitis (AD). Because it can be released after tissue damage or physical stress including scratching of the skin,1 it has been classified as an alarmin concerned with alerting the immune system.2 It enhances TH2 responses by inducing IL-5 and IL-13 as well as TH1 responses via upregulation of IFN-γ. Keratinocytes are known producer cells of IL-33 and also express the receptor complex consisting of ST2 and IL-1RAcP on their surface. The aim of this study was to investigate the effect of IL-33 on keratinocytes, skin biopsies, and living skin equivalents with regard to the regulation of the skin barrier molecule filaggrin (FLG). IL-33 Cytokines Skin barrier Filaggrin Atopic dermatitis AD
429	IL-17A RNA aptamer: possible therapeutic potential in some cells, more than we bargained for in others? Doble, R., McDermott, M.F., Cesur, O., Stonehouse, N.J., Wittmann, Miriam January 2014 (has links) No Psoriasis Rheumatoid arthritis IL-17A Therapies Chronic inflammation
430	Funktionelle Charakterisierung linien-fremder Signalwege für Wachstum, Überleben und Reprogrammierung lymphatischer Zellen Lamprecht, Björn 05 January 2011 (has links) Cytokine steuern die Kommunikation von verschiedenen Zelltypen untereinander und regulieren deren Überleben, Differenzierung und Wachstum. Kommt es zu einer Deregulation der Expression von Cytokinen oder deren Rezeptoren, kann es zu autoimmunen oder malignen Erkrankungen kommen. Ein besonderes Beispiel der aberranten Cytokinexpression ist das klassische Hodgkin Lymphom. Die malignen Hodgkin/Reed-Sternberg (HRS) Zellen des Hodgkin Lymphoms stammen ursprünglich aus Keimzentrums B-Zellen ab, haben aber ihren B-Zell Phänotyp verloren. Des Weiteren exprimieren sie eine Vielzahl von verschiedenen Cytokinen und Cytokinrezeptoren, die ursprünglich nicht in einem Genexpressionsprogramm von B-Zellen vorkommen. In dieser Arbeit wurden zwei dieser Cytokin-Rezeptorsysteme (IL-21/IL-21R und CSF-1/CSF1R) hinsichtlich ihrer Funktionen für die HRS Zellen des Hodgkin Lymphoms charakterisiert. Die Expression des T-Zell assoziierten Cytokins IL-21 konnte in dieser Arbeit erstmals in HRS Zellen nachgewiesen werden. Für die Expression des myeloiden CSF1R zeigen Ergebnisse dieser Arbeit eine neuartige Regulation durch ein Long Terminal Repeat (LTR) Element, welche zu einem bis dahin unbekannten mRNA Transkript des Protoonkogens CSF1R in den HRS Zellen führt. Sowohl für IL-21 als auch für CSF1R konnte in der Doktorarbeit die Expression und Funktionalität des jeweilig korrespondierenden Rezeptors (IL-21R) bzw. Cytokins (CSF-1) nachgewiesen werden. Die Bedeutung dieser B-Zell fremden Gene für die HRS Zellen lag hauptsächlich in der Stimulation von Wachstum und Überleben und der Induktion von wichtigen Signalwegen (z.B. STAT3). Die Ergebnisse der Dissertation können als Ausgangspunkt für neue Strategien in der Diagnostik und der spezifischeren Therapie von Hodgkin Lymphom Patienten dienen. Der außergewöhnliche Mechanismus der Genregulation des CSF1R Gens über ein endogenes LTR Element kann in anderen Tumorentitäten ebenfalls ein Grund für die Aktivierung von Onkogenen sein. / Cytokines in the human body are responsible for cell-cell communication and regulate survival, differentiation and proliferation of different cell types. Deregulation of expression levels of cytokines might contribute to autoimmune diseases or tumor growth. One of the most prominent examples of aberrant cytokine expression is the classical Hodgkin Lymphoma. The malign Hodgkin/Reed-Sternberg (HRS) cells of classical Hodgkin Lymphoma are derived from germinal centre B cells, however they lost their B cell-specific phenotype. Moreover they express a huge variety of cytokines and cytokine receptors, normally not expressed in B cells. Two of these cytokine-receptor systems (IL-21/IL-21R and CSF-1/CSF1R) and their expression and function in HRS cells are subject of this dissertation. The expression of the T cell-associated cytokine IL-21 has been shown for the first time in HRS cells. The results for the myeloid-specific proto-oncogene CSF1R identified a unique, so far unknown mRNA transcript, expressed due to activation of a long terminal repeat (LTR) element. For both, IL-21 and CSF1R, the expression and functionality of the corresponding receptor (IL-21R) or cytokine (CSF-1), respectively, was demonstrated in this dissertation. Protection from apoptosis, proliferation and stimulation of several pathways are the main functional consequences of auto- and paracrine stimulation of HRS cells with either IL-21 or CSF-1. These results might lead to new diagnostic and more specific treatment strategies for Hodgkin Lymphoma patients. Regarding the unusual expression of CSF1R via LTR activation this mechanism might also be the reason for oncogene activation in several other tumor entities. B-Zellen Neoplasien Hodgkin Lymphom Cytokine IL-21R IL-21 CSF1R CSF-1 LTR epigenetische Modifikationen B cells Cytokines Neoplasia Hodgkin Lymphoma IL-21R IL-21 CSF1R CSF-1 LTR epigenetic modifications 570 Biologie 32 Biologie XD 3200 ddc:570

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