Global ETD Search

141	Homeostatic Regulation of Interleukin-4-Mediated Cell Signaling Chakraborty, Rikhia 21 December 2009 (has links) No description available. Biochemistry Biology Biomedical Research Cellular Biology Immunology Molecular Biology IL-4 ROS NOX Jak-STAT Peroxiredoxins
142	Identifying pathogenic stromal and acinar signaling for improved diagnosis and treatment of chronic pancreatitis Komar, Hannah Marie, Komar January 2017 (has links) No description available. Biomedical Research Immunology chronic pancreatitis IL-6 Jak STAT stroma inflammation pancreatic stellate cell proteomics biomarkers
143	Role of macrophages and eosinophils in inflammatory bowel diseases Waddell, Amanda B. 20 April 2012 (has links) No description available. Immunology eotaxin-1 ulcerative colitis inflammatory bowel diseases NF-kappa B STAT-6 macrophages
144	Identification of Novel Stat92E Target Genes in Drosophila Hematopoiesis Vyas, Aditi 22 July 2016 (has links) No description available. Genetics Molecular Biology Bioinformatics Drosophila hematopoiesis Jak Stat pathway Stat92E Target genes CtBP Suppressor of Hairless
145	Vad är religion? : Religionsvetenskapliga och statliga perspektiv på ett begrepp i förändring Westergren, Yanina January 2018 (has links) This is a literature- and document analysis of what new Swedish students in Religious studies learns about perspectives on religion, and perspectives on religion expressed by Swedish law. Course literature from Swedish universities together with Swedish law texts is the material for analysis. Mary Douglas classification theory is used to explain how we categorize our world as individuals and groups. The result of the study shows that the perspectives on religion expressed in the selected course literature differs very much from the perspectives expressed by Swedish law. Via legislation, the Swedish state conserves the Christian Church-perspective that the Swedish universities for Religious studies seem to have moved on from; a perspective that gets a lot of critique in large parts of selected literature. In the analyzed course literature, the cultural studies-approach is dominating, together with elements from phenomenology. / En studie av vilka perspektiv på religion nya svenska studenter i religionsvetenskap lär sig om på högskolor och universitet, samt vilka perspektiv på religion som svensk lag ger uttryck för. Litteraturstudier av för syftet utvald kurslitteratur i religionsvetenskap på svenska högskolor och universitet har genomförts, liksom dokumentanalys av svenska lagar som rör religionsdefinitioner. Teorin som används för att förklara hur vi som individer och grupper kategoriserar vår omvärld är Mary Douglas klassificeringsteori. Resultatet av studien visar att den utvalda kurslitteraturens perspektiv på religion som fenomen och begrepp skiljer sig markant från det perspektiv som uttrycks av svensk lag. Den svenska staten konserverar i lagstiftning det kristen-kyrkliga perspektiv på religion som de religionsvetenskapliga lärosätena tycks ha lämnat därhän; ett perspektiv som möter stark kritik i största delen av utvald litteratur. I kurslitteraturen dominerar istället ett kulturvetenskapligt perspektiv på religion, med fenomenologiska inslag. state religion definitions law Sweden religion definitioner stat lagar Sverige Religious Studies Religionsvetenskap
146	Identification of the presence and activity of the JAK-STAT pathway in canine solid tumors Fagan, Erin A. 22 May 2017 (has links) Background: The JAK-STAT pathway is a cellular signaling pathway, which acts normally in humans and animals in the control of multiple important functions. Dysregulation of this pathway has been identified in human cancers, as well as a limited number of veterinary cancers. Objectives: The aims of this study were to identify the presence and tentative activity of components of the JAK-STAT pathway in selected canine tumors. Methods: Formalin-fixed, paraffin-embedded samples from mast cell tumors (MCT), hemangiosarcomas (HSA), thyroid carcinomas, and apocrine gland anal sac adenocarcinomas (AGASACA) were obtained from the Diagnostic Histopathology Laboratory at the Virginia Maryland College of Veterinary Medicine. Immunohistochemistry was performed to evaluate protein levels of JAK1, phospho-JAK1, JAK2, phospho-JAK2, STAT3, and phospho-STAT3. Signalment, treatment information, and survival information was obtained from the medical record for each case. Results: Tumor samples were scored for percent positive neoplastic cells. Positive staining was seen for all antibodies in all tumor types, with expression of JAK1, STAT3, and pSTAT3 being highest overall for all tumor types. Significant associations were seen between JAK1 and survival time in MCT (p = 0.03), pJAK1 and survival time in HSA (p = 0.009) and MCT (p = 0.04), and pSTAT3 and metastasis in MCT (p = 0.0008). Conclusions: The finding of positive staining for the components of the JAK-STAT pathway in the tumor samples evaluated indicates presence and tentative activity of this pathway in the studied cancers. Further study of JAK1, pJAK1, and pSTAT3 should be pursued to evaluate their potential as therapeutic targets. / MS JAK-STAT canine hemangiosarcoma mast cell tumor thyroid carcinoma apocrine gland anal sac adenocarcinoma neoplasia
147	Billy Graham och Lewi Pethrus förkunnelse om samhällsförändring : En komparativ studie Eriksson, Albin January 2023 (has links) No description available. Billy Graham Lewi Pethrus Samhällsförändring Predikan Kristendom Reformert Kyrka/Stat Evangelikalism Pingströrelsen Politik Religious Studies Religionsvetenskap
148	Interaction of suppressor of cytokine signalling 3 with cavin-1 links SOCS3 function and cavin-1 stability Williams, Jamie J.L., Alotaiq, N., Mullen, W., Burchmore, R., Liu, L., Baillie, G.S., Schaper, F., Pilch, P.F., Palmer, Timothy M. 12 January 2018 (has links) Yes / Effective suppression of JAK–STAT signalling by the inducible inhibitor “suppressor of cytokine signalling 3” (SOCS3) is essential for limiting signalling from cytokine receptors. Here we show that cavin-1, a component of caveolae, is a functionally significant SOCS3- interacting protein. Biochemical and confocal imaging demonstrate that SOCS3 localisation to the plasma membrane requires cavin-1. SOCS3 is also critical for cavin-1 stabilisation, such that deletion of SOCS3 reduces the expression of cavin-1 and caveolin-1 proteins, thereby reducing caveola abundance in endothelial cells. Moreover, the interaction of cavin-1 and SOCS3 is essential for SOCS3 function, as loss of cavin-1 enhances cytokine-stimulated STAT3 phosphorylation and abolishes SOCS3-dependent inhibition of IL-6 signalling by cyclic AMP. Together, these findings reveal a new functionally important mechanism linking SOCS3-mediated inhibition of cytokine signalling to localisation at the plasma membrane via interaction with and stabilisation of cavin-1. / This work was supported by project grants to T.M.P. from the Chief Scientist Office (ETM/226), British Heart Foundation (PG12/1/ 29276, PG 14/32/30812), and a National Health Service Greater Glasgow and Clyde Research Endowment Fund (2011REFCH08). P.F.P. was supported by the National Institutes of Health grant DK097708. J.J.L.W. was supported by a doctoral training studentship from the Biotechnology and Biological Sciences Research Council Doctoral Training Programme in Biochemistry and Molecular Biology at the University of Glasgow (BB/F016735/1). N.A. was supported by a Saudi Government PhD Scholarship. This work was also supported in part by equipment grants to T.M.P. from Diabetes UK (BDA 11/0004309) and Alzheimer’s Research UK (ARUK-EG2016A-3). JAK–STAT signalling Cytokine receptors Confocal imaging Cavin-1
149	JAK/STAT signalling in the induction of the L-arginine-nitric oxide pathway in macrophages and vascular smooth muscle cells Garr, Edmund Dzigbordi January 2014 (has links) The production of Nitric Oxide (NO) under physiological conditions has beneficial roles in acting as a key signaling component of many biological processes as well as having an anti-microbial effect. However its effects following excess production by the inducible NO pathway is potentially detrimental in the pathogenesis of chronic inflammation including sepsis and several other inflammatory diseases. Understanding the mechanisms that regulate the expression of the inducible nitric oxide synthase (iNOS) responsible for producing the excessive amounts of NO in disease states is therefore critical. In this regards, experiments were carried out to identify the signaling pathways that may mediate this process, focusing specifically on the JAK/STAT cascade. The reason for selecting the latter is because our research group, amongst others, has carried out extensive work investigating other signaling pathways, including the mitogen activated kinases (MAPK). Moreover, studies have also been carried out in an attempt to identify the critical role of JAK/STAT signaling for iNOS induction. These studies however failed to conclusively demonstrate whether, as with the MAPKs, the JAK/STATs may also play an essential role. Furthermore there is indeed controversy in the literature with researchers unable to agree whether expression of iNOS does require JAK/STAT activation. Thus, the aim of the project described in this thesis was to establish unequivocally whether activation of the JAK/STATs preceeds induction of iNOS. The studies were extended to L-arginine transport as well because the latter is widely reported to be induced in parallel with iNOS and substrate supply to iNOS may be critical for sustained NO production. Changes in transporter activity as well as their expression profiles were assessed. All experiments were carried out in either rat aortic smooth muscle cells (RASMCs) or in the J774 macrophage cell line. These cell types were selected because RASMCs are one of the prime targets for induced NO production in vascular inflammation and the macrophages are involved in host defence, acting in part through NO production. To establish the role of JAK/STATs, pharmacological and molecular approaches were used. Pharmacologically, two inhibitors were used and these were AG490 and JAK inhibitor I. The former is reported to be a selective JAK2 inhibitor and the other blocks all known JAK proteins. The potential of the GTPases to regulate the induction of iNOS was also examined using selective inhibitor known to regulate these proteins. In addition to these drugs, siRNA targeting JAK2 was also exploited and western blotting was extensively used to detect expression of various proteins including iNOS, native and phosphorylated JAK2 and TYK2. Changes in iNOS activity was monitored by determining nitrite production using the Griess assay and L-arginine transport was monitored using tritiated arginine (L-[3H]arginine). RASMCs were treated with a combination of LPS (100 µg/ml) and IFN- (100 U/ml) and the macrophages with LPS (1 µg/ml) to induce iNOS and transporter activity. Consistent with previous reports, the above treatment of both cell types resulted in the expression of iNOS, production of NO and enhanced transport of L-arginine. These effects were not affected by AG490 but blocked by JAK inhibitor I. Furthermore, although both cell types expressed the key JAKs (JAK2 and TYK2), neither of these proteins were phosphorylated under conditions of induced NO production. Moreover, siRNA experiments showed that JAK2 expression could be abolished without any significant change in NO production, confirming that at least JAK2 may not be required for this process. Whether TYK2 is involved still remains to be resolved as the phosphor-protein could not be detected. However the conclusive siRNA knockdown studies could not be carried out due to time and cost constraints. Apart from iNOS and NO production, changes in induced L-arginine transport were also not significantly affected under the experimental conditions described above suggesting that like with iNOS, induction of L-arginine transport is independent of at least JAK2. Interestingly however, STAT-1 was phosphorylated and this was blocked by JAK inhibitor I but not AG490. Thus, STAT-1 activation may be essential but its activation may be independent of the JAKs. One possible alternate upstream activator of STAT-1 may be the GTPases. Indeed these proteins have been indicated to phosphorylate STAT-1 independent of the JAKs. However, in this project, inhibition of the GTPase pathway enhanced NO production and L-arginine transport suggesting that the GTPases downregulate these processes. In conclusion, the studies carried out in this thesis have shown that induction of iNOS, NO production and L-arginine transport in both RASMCs and J774 macrophages are independent of JAK2 but require STAT-1 activation which may be phosphorylated independently of the JAKs. The role of other JAKs such as TYK2 although unlikely, will need to be resolved using a more specific approach such as siRNA. 616.07
150	Étude du mécanisme de régulation de la sénescence et de p53 par la protéine SOCS1 Calabrese, Viviane 01 1900 (has links) Les mécanismes cellulaires anti-prolifératifs, lesquels comprennent l’apoptose, aussi appelée la mort cellulaire programmée, l’arrêt transitoire du cycle cellulaire et la sénescence, permettent à la cellule de prévenir, en réponse à différents stress, l’accumulation de mutations pouvant conduire à une prolifération incontrôlée et, éventuellement, au développement d’une tumeur. La régulation de ces différents mécanismes requiert l’activation de protéines appelées des suppresseurs de tumeur, dont le principal est p53. p53 est un facteur de transcription dont la stabilisation et l’activation conduit à une hausse de l’expression de gènes directement impliqués dans l’arrêt de la prolifération. Au cours des dernières années, l’ensemble des travaux sur p53 ont permis de mettre en évidence la complexité de sa fonction, de même que la multitude de voies de signalisation et de protéines avec lesquelles il coopère pour maintenir l’intégrité du génome. De ce fait, l’étude des mécanismes d’activation de p53 est de mise pour la compréhension de sa régulation et, éventuellement, pour la prévention et l’élaboration de nouvelles stratégies de traitement contre le cancer. L’objet de cette thèse est la mise en évidence d’un mécanisme d’activation de p53 et de la sénescence par la protéine SOCS1, un suppresseur de la signalisation par les cytokines. Ce mécanisme implique une interaction directe entre les deux protéines, plus précisément entre le domaine SH2 de SOCS1 et le domaine de transactivation de p53. SOCS1 interagit également, au niveau de son SOCS Box, avec les kinases ATM et ATR de la voie du dommage à l’ADN de façon à faciliter la phosphorylation de p53 en sérine 15. Ainsi, en interagissant à la fois avec p53 et ATM/ATR, SOCS1 contribue à la stabilisation et à l’activation de p53. En accord avec ce modèle, l’inhibition de SOCS1 dans des fibroblastes humains normaux tend à diminuer le nombre de cellules sénescentes suite à l’expression de l’oncogène ca-STAT5A et à réduire l’accumulation nucléaire de p53 dans ces cellules. De la même façon, les lymphocytes T provenant de souris Socs1-/-Ifnγ-/- sont moins susceptibles d’entrer en apoptose que les lymphocytes provenant de souris Socs1+/+Ifnγ+/+, suite à une exposition à des radiations. Dans les deux contextes, on observe une baisse de l’expression des gènes cibles de p53, ce qui démontre que SOCS1 est impliquée dans l’activation de p53 in vivo. Cette thèse a également pour but de mettre en évidence l’implication de SOCS1 dans l’activation d’autres facteurs de transcription et, par le fait même, de démontrer qu’elle peut agir comme un régulateur plus général de la transcription. Une étude approfondie de l’interaction entre SOCS1 et p53 a permis de démontrer que le domaine de transactivation II de p53 (acides aminés 36-67) est suffisant pour l’interaction. Plus précisément, il semble que le tryptophane 53 (W53) et la phénylalanine 54 (F54) sont les principaux résidus impliqués. Une analyse structurale de ce domaine de p53 a conduit à l’identification d’un motif conservé dans plusieurs autres facteurs de transcription pourvus d’un domaine de transactivation acide, dont p63, p73 et E2F1. En accord avec ces résultats, SOCS1 est en mesure d’interagir avec chacune des deux protéines. Ainsi, la capacité de SOCS1 d’interagir et de réguler l’activité de p53 peut s’étendre à d’autres facteurs de transcription. En terminant, le mécanisme présenté dans cette thèse contribue à la compréhension de la régulation de p53, le principal suppresseur de tumeur de la cellule. De plus, il met en évidence une nouvelle fonction de SOCS1, laquelle était jusqu’alors essentiellement connue pour inhiber la voie de signalisation JAK/STAT. Ce nouveau rôle pour SOCS1 permet d’expliquer de quelle manière une activation aberrante de la signalisation par les cytokines peut déclencher la sénescence ou l’apoptose. Enfin, le fait que SOCS1 puisse réguler différents facteurs de transcription permet de la qualifier de régulateur général des facteurs de transcription composés d’un domaine de transactivation acide. / In response to different stress, three anti-proliferative mechanisms, namely apoptosis, also called programmed cell death, transient growth arrest and senescence, prevent the cells from cumulating mutations that can lead to uncontrolled proliferation and, eventually, to tumor development. Regulation of these mechanisms requires the activation of proteins called tumor suppressors. One of them, p53, is a transcription factor whose stabilization and activation lead to an increase in expression of genes directly implicated in cell cycle arrest. In the past years, studies about p53 showed how much its function is complex and with how many signaling pathways and proteins it cooperates to maintain genome integrity. Thus, studying the activation mechanisms of p53 is essential to understand its regulation and, thereby, to prevent tumor development and to elaborate new strategies for cancer treatment. The first aim of this thesis is to show a new activation mechanism of p53 and of senescence by the protein SOCS1, a suppressor of cytokine signaling. This mechanism implies a direct interaction between the two proteins, specifically between the SH2 domain of SOCS1 and the N-terminal transactivation domain of p53. SOCS1 also interacts with the DNA damage-regulated kinases ATM and ATR via its C-terminal domain, which contains a SOCS Box, to facilitate the phosphorylation of p53 on its serine 15. Thus, by interacting at the same time with p53 and ATM, SOCS1 contributes to stabilization and activation of p53. In accordance with this model, SOCS1 inhibition in human normal fibroblasts decreases the number of senescent cells in which the activated oncogene STAT5A is expressed and reduces p53 nuclear accumulation in these cells. In the same way, T cells from Socs1-/-Ifnγ-/- mice are less likely to undergo apoptosis than T cells from Socs1+/+Ifnγ+/+ mice, after exposure to γ radiation. In both contexts, the expression of p53 target genes is decreased, which indicates that SOCS1 is implicated in p53 activation in vivo. This thesis also aims to show the role of SOCS1 in the activation of other transcription factors and, thereby, to show that it can act as a more general regulator of transcription. A detailed study of the interaction between SOCS1 and p53 showed that the transactivation domain II of p53 (amino acids 36-67) is sufficient for the interaction. Specifically, it seems that tryptophan 53 (W53) and phenylalanine 54 (F54) are essential for the interaction. A structural analysis of this p53 region highlights an acid transactivation domain actually conserved in many others transcription factors, such as p63, p73 and E2F1. In accordance with this observation, SOCS1 is able to interact with both proteins. Thus, the capacity of SOCS1 to interact with p53 and to regulate its activity may extend to other transcription factors. The mechanism showed in this thesis contributes to the understanding of p53 regulation and highlights a new function for the SOCS1 protein. Indeed, until now, SOCS1 was mostly known to be a negative regulator of the JAK/STAT pathway. Moreover, this new role for SOCS1 explains how an aberrant cytokine signaling can trigger senescence or apoptosis. Finally, the fact that SOCS1 can regulate different transcription factors allows us to consider it as a general regulator of transcription factors containing an acid transactivation domain. p53 SOCS1 Sénescence cellulaire Cancer ATM ATR Réponse au dommage à l'ADN Voie de signalisation JAK/STAT STAT5A Interaction protéine-protéine cellular senescence cancer DNA damage response JAK/STAT pathway protein-protein interaction

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