Global ETD Search

31	Role of Ubiquitylation in Controlling Suppressor of Cytokine Signalling 3 (SOCS3) Function and Expression Williams, Jamie J.L., Munro, K.M.A., Palmer, Timothy M. 04 May 2014 (has links) Yes / The realisation that unregulated activation of the Janus kinase–signal transducer and activator of transcription (JAK–STAT) pathway is a key driver of a wide range of diseases has identified its components as targets for therapeutic intervention by small molecule inhibitors and biologicals. In this review, we discuss JAK-STAT signalling pathway inhibition by the inducible inhibitor “suppressor of cytokine signaling 3 (SOCS3), its role in diseases such as myeloproliferative disorders, and its function as part of a multi-subunit E3 ubiquitin ligase complex. In addition, we highlight potential applications of these insights into SOCS3-based therapeutic strategies for management of conditions such as vascular re-stenosis associated with acute vascular injury, where there is strong evidence that multiple processes involved in disease progression could be attenuated by localized potentiation of SOCS3 expression levels. / British Heart Foundation; Chief Scientist's Office; NHS Greater Glasgow and Clyde Research Endowment Fund; BBSRC
32	Palladium Voltammetric Microelectrode as pH Sensor in an Micro Electrochemical Cell Zhang, Zhehao 30 August 2017 (has links) No description available. Biomedical Engineering pH-stat palladium electrode voltammetry
33	Les spécificités de la signalisation oncogénique par rapport à la signalisation physiologique : le modèle de KIT, un récepteur à activité tyrosine kinase / Normal and oncogenic signalling of the receptor tyrosine kinase KIT Chaix, Amandine 30 September 2010 (has links) Le système de communication SCF/KIT est impliqué dans le développement et l’homéostasie de plusieurs lignages cellulaires. Des dysfonctionnements de la voie sont à l’origine de pathologies affectant ces compartiments. En particulier, des mutations gain-de-fonction, qui entraînent l’activation constitutive du récepteur à activité tyrosine kinase KIT, sont responsables de néoplasies chez l’homme.L’objectif des travaux réalisés durant cette thèse était d’étudier certaines spécificités de la signalisation de formes oncogéniques de KIT, ceci dans le modèle du mastocyte transformé par l’oncogène KIT-D816V. Cette étude a été menée au niveau proximal sur le récepteur lui-même ainsi qu’au niveau distal sur la voie STAT ,une des voies de signalisation spécifiquement activée de manière constitutive par le récepteur mutant.Au niveau proximal, nous avons pu montrer que le motif dityrosine Y568-Y570situé dans le domaine juxtamembranaire de hKIT est une plateforme majeure de recrutement des effecteurs de la signalisation intracellulaire avec au moins 15partenaires différents recrutées. Par ailleurs l’étude de modèles cellulaires dans des analyses liées aux fonctions physiologiques du récepteur réalisés in vitro et in vivo ont révélé que le site est impliqué dans la régulation négative du signal transformant issu de l’oncogène KIT-D816.Au niveau distal, nous avons analysé les mécanismes de phosphorylation des protéines STAT1, -3 et -5 ainsi que l’importance fonctionnelle de leur activation dans la transformation dépendante de KIT-D816. Nous avons ainsi étudié la contribution de différentes kinases dans les phosphorylations activatrices des STATs sur tyrosine et serine. Nos résultats suggèrent que seul STAT5 a une activité transcriptionnelle dans nos modèles suggérant une implication potentielle non canonique des STAT1et -3 dans la transformation dépendante de KIT-D816.L’ensemble de nos travaux contribue à une meilleure compréhension des mécanismes de l’oncogenèse dépendante de KIT-D816, un point critique dans le développement raisonné de thérapeutiques anticancéreuses ciblées. / The receptor tyrosine kinase KIT and its ligand, the stem cell factor (SCF), are implicated both in the development and the homeostasis of multiple cell lineages. Dysfunctions in the KIT/SCF pathway are involved in several pathologies affecting these compartments. In particular, gain-of-function mutations that lead to constitutive activation of the receptor KIT are found in human neoplasia.The purpose of this thesis project was to investigate some differences between normal and oncogenic signalling of KIT receptor using mast cells transformed by the KIT-D816 oncogene as a model. This question was analysed at aproximal level on the oncogenic receptor itself and at a more distal level on the STAT signal transduction pathway, which is specifically and constitutively activated by theKIT-D816 mutant.At the proximal level, we show that the juxtamembrane dityrosine motif Y568-Y570 of KIT is the major platform of recruitment of intracellular signalling partnerswith more than 15 interactors found in mast cells. Furthermore, the analysis ofcellular models in both in vitro and in vivo assays related to KIT physiological functions has revealed the negative role of the motif in KIT-D816-mediated cell transformation. At the distal level, we have analysed the mechanisms of phosphorylation ofSTAT1, -3 and -5 proteins and the functional relevance of their activation in KITD816-mediated transformation. We describe the contribution of different kinases inthe phosphorylation of STATs on both serine and tyrosine residues. Our results suggest that only STAT5 is transcriptionaly active whereas STAT1 and STAT3 are not, suggesting a non conventional implication of their activation in celltransformation. Our work contributes to a better understanding of the mechanisms of KITD816-mediated oncogenesis and could be used to improve the rational developmentof new targeted cancer therapies Oncogène Transformation cellulaire Mastocytose Leucémie Protéine kinase Stat Oncogene Mastocytosis Cellular transformation Leukaemia Protein kinases Stat
34	STAT e SOCS na modulação funcional de células dendríticas derivadas de doadores saudáveis e pacientes com câncer. / STAT and SOCS in the functional modulation of dendritic cells derived from healthy donors and CLL patients. Toniolo, Patrícia Argenta 23 September 2014 (has links) A descoberta de novos alvos terapêuticos capazes de reverter o efeito tumoral imunossupressor sobre as células dendríticas (DCs) é de grande relevância clínica. Identificamos que monócitos de pacientes com leucemia linfóide crônica (LLC) têm alterações na sinalização de STAT6 induzida por IL-4 que previne a maturação fenotípico-funcional das DCs. Embora os monócitos dos pacientes apresentem alta expressão de IL-4R, a atividade de STAT6 está inibida devido aos elevados níveis de SOCS5. IL-10 reproduz esta desregulação de STAT6/SOCS5 nos monócitos de doadores saudáveis, causando diferenciação defeituosa das DCs. Isso indica que SOCS5 está envolvida nas alterações das DCs de pacientes. Ainda, encontramos que a inibição de STAT3 com pirimetamina, um composto em ensaio clínico para LLC, não afeta a maturação das DCs, diferentemente da inibição de STAT5 por JQ1. Isso mostra que STAT5 é importante para a maturação das DCs, e sugere que a JQ1, mas não a pirimetamina, pode causar imunossupressão. Já SOCS5 pode ser um novo potencial alvo para terapia do câncer. / Discovery of new targets to reverse tumor immunosuppression on dendritic cells (DCs) hold great therapeutic promise. Here, we identify that monocytes from chronic lymphocytic leukemia (CLL) patients have alteration in IL-4-induced STAT6 signaling that prevents DCs phenotypic and functional maturation. Although patients monocytes display high IL-4R expression, STAT6 activity is inhibited because of elevated SOCS5 levels. IL-10-treatment of healthy donors monocytes reproduces this altered mechanism (STAT6/SOCS5) and leads to a defective DC differentiation. These findings indicate that a high SOCS5 level is involved on CLL-DCs impaired function. Moreover, we find that pharmacologic inhibition of STAT3 by pyrimethamine, a clinical trial compound for CLL, does not affect LPS-induced DCs maturation while STAT5 inhibition by JQ1 prevents it. Our findings show that STAT5 is important for DCs maturation, and suggest that JQ1, but not pyrimetamine, can cause immunosuppression. Additionally, SOCS5 emerges as a new potential target for cancer treatment. Células dendríticas Dendritic cell Immunomodulation Imunomodulação Leucemia Leukemia SOCS SOCS STAT STAT
35	Mécanotransduction par les cavéoles : rôle dans l'activation de stat3 par l'interferon alpha / Mechannotransduction by the caveolae : a role in the activation of stat3 by the interferon alpha Ruez, Richard 08 November 2011 (has links) Hypothèse : Notre équipe étudie le rôle, mal connu, du trafic membranaire dans le contrôle de l’activation de la voie de signalisation JAK/STAT par les interférons (IFN), une voie clé du contrôle des processus cancéreux. La liaison de l’IFN-a à son récepteur IFNAR active les kinases JAK1 et TYK2 puis des transducteurs de signal comme STAT1, antiprolifératif, ou STAT3, qui a un pouvoir oncogénique. Le laboratoire a démontré récemment que le trafic membranaire d’IFNAR détermine la spécificité du signal des différents IFNs.L’objet de cette thèse est l’étude du rôle des cavéoles dans ce contrôle. Les cavéoles sont des invaginations membranaires enrichies en cholestérol et glycosphingolipides, formées par l’oligomérisation de la cavéoline1 (Cav1). Les cavéoles ou le gène CAV1 ont souvent été associés à la progression tumorale, notamment des cellules mammaires, mais ce rôle reste énigmatique et controversé. Le fait que IFNAR ait été détecté par biochimie dans des fractions de membrane enrichies en cholestérol et positives pour la cavéoline-1 chez la souris et le fait que l’expression du gène CAV1 ait été corrélée à l’action antitumorale de l’IFNa nous ont conduit à étudier le rôle des cavéoles dans l’action antitumorale des IFNs.Résultats: Le rôle putatif des cavéoles sur le contrôle de la voie JAK/STAT a été étudié dans des cellules murines MLEC n’exprimant pas Cav1 et dans des lignées humaines par interférence ARN contre Cav1. Nous avons pu démontrer que la présence de Cav1 régule de manière opposée deux étapes de la voie de signalisation de STAT3 activée par l’IFN-a. Par contre, ni l’activation de STAT1 par l’IFN-a ni celle de STAT3 par les autres IFNs ne nécessitent Cav1. Parallèlement, le laboratoire a montré que les cavéoles jouent un rôle capital dans la réponse cellulaire aux stress mécaniques en se dépliant lors d’un étirement membranaire, ce qui amortit la tension membranaire. Nous montrons qu’un tel stress mécanique par étirement module spécifiquement la signalisation de STAT3 par l’IFN-a d’une manière dépendante de Cav1 dans les cellules MLEC, suggérant pour la première fois un rôle de STAT3 et de l’IFN-a dans la mécanotransduction dépendante des cavéoles. Ce résultat permet aussi de relier les contraintes mécaniques présentes dans la masse tumorale et leur effet sur la progression tumorale. Perspectives : Les IFNs et la voie JAK/STAT sont bien caractérisés pour leur action antiproliférative, mais si l’IFN-a est utilisé en thérapeutique oncologique, les mécanismes de l’effet antitumoral sont mal connus. Nos résultats impliquent pour la première fois les cavéoles dans l’activation sélective du proto-oncogène STAT3 par l’IFN-a et proposent STAT3 comme un des nouveaux acteurs de la mécanotransduction par les cavéoles. Elucider les mécanismes moléculaires mis en jeu dans ces deux fonctions inédites des cavéoles devrait permettre d’identifier de nouvelles cibles thérapeutiques dans la progression tumorale. / Hypothesis: Our team studies the poorly investigated role of membrane trafficking in the control of the activation of the JAK / STAT signaling pathway by interferons (IFN), a key mechanism in the control of tumorigenesis. The binding of the IFN-a to its receptor IFNAR activates the kinases JAK1 and TYK2 and then, signal transducers and activators of transcription including the antiproliferative STAT1 or the oncogenic STAT3. The laboratory demonstrated recently that the trafficking of IFNAR at the plasma membrane determines the signal specificity of the various IFNs.The goal of this thesis was to study the role of caveolae in this control. Caveolae are specialized membrane invaginations enriched in cholesterol and glycosphingolipids, formed by the oligomerization of their main structural protein, caveolin-1 (Cav1). Caveolae or the CAV1 gene have often been associated with tumorigenesis, in particular in mammary cancer cells, but this role remains enigmatic and controversial. The fact that IFNAR was previously found in Cav1-positive lipid microdomains and the fact that the expression of the CAV1 gene had been functionally linked to the antitumoral function of IFN-a led us to investigate the role of caveolae in the antitumoral function of the IFNs.Results: The putative role of caveolae in the control of the JAK / STAT signaling pathway have been studied in murine lung endothelial MLEC cells that do not express Cav1 and in a human lineage by RNA interference against Cav1. We were able to demonstrate that the presence of Cav1 regulates in an opposite manner two stages of the signaling pathway of STAT3 activated by the IFN-a whereas the activation of STAT1 by IFN-a, or STAT3 by the other type I and II IFNs do not require Cav1.At the same time, the laboratory showed that caveolae play a major role in the cellular answer to mechanical stress by flattening during a membrane stretching, thus buffering the membrane tension. We show that mechanical stress by uniaxial cell stretching modulates specifically the signaling pathway of STAT3 activated by the IFN-a in a Cav1-dependant manner in MLEC cells. This result suggests for the first time a role of STAT3 and of IFN-a in caveolae-driven mechanotransduction. This result also allows us to link the mechanical constraints found in the tumoral mass to their effect on tumorigenesis.Prospects:The IFNs and the JAK / STAT signaling pathway protect the cells from tumorigenesis, but although IFN-a is used in oncology, the mechanisms of its antitumoral effect are poorly known. Our results involve for the first time caveolae in the selective activation of the proto-oncogenic STAT3 by the IFN-a and allow us to propose STAT3 and the IFN-a as new actors of the mechanotransduction by caveolae. Clarifying the molecular mechanisms involved in these two new functions of caveolae should allow us to identify new therapeutic targets in tumorigenesis. Signalisation Interféron Cavéole Cavéoline JAK/STAT Mecanotransduction Signaling Interferon Caveolae Caveolin JAK/STAT Mechanotransduction
36	Análise das alterações na musculatura duodenal e resposta do hospedeiro contra infecção pelo Strongyloides venezuelensis e tratamento com Dexametasona: o papel da via JAK-STAT 6 / Analysis of changes in the duodenal musculature and host response to infection venezuelensis Strongyloides and Dexamethasone treatment: the role of the JAK-STAT 6 Yodono, Nathalia Butschkau Palazzin 16 August 2016 (has links) A estrongiloidíase é uma parasitose intestinal sendo considerada a quarta maior causada por nematódeos. O mecanismo de defesa contra a estrongiloidíase é mediada pela ativação de células de perfil Th2, que amplificam a resposta celular através da secreção de mediadores inflamatórios. O que faz da estrongiloidíase um grave problema de saúde pública, é o desenvolvimento da hiperinfecção, principalmente devido ao uso de glicocorticóides, onde ocorre aumento do número de larvas e fêmeas que se disseminam por todo organismo. Estudos demonstraram que algumas infecções helmínticas têm sido acompanhadas por hipertrofia e hipercontratillidade da musculatura intestinal, via JAK-STAT 6. Entretanto pouco se sabe sobre a influência desta via nas alterações da parede muscular do duodeno durante infecção pelo Strongyloides venezuelensis. O presente trabalho objetivou investigar as alterações morfológicas, imunológicas e patológicas da musculatura lisa intestinal que ocorrem em decorrência da infecção experimental pelo S. venezuelensis, bem como a interferência do tratamento com Dexametasona e o papel da via JAK - STAT 6 neste processo. Ratos Wistar foram inoculados com larvas de S. venezuelensis, tratados com dexametasona e sacrificados nos dias 5, 7, 14 e 21. Foram realizadas diversas colorações com a finalidade de quantificar as fêmeas adultas no duodeno, realizar morfometria da musculatura duodenal, quantificar eosinófilos e células caliciformes. Foi realizada análise da expressão gênica do gene STAT 6. Nossos resultados mostraram hiperplasia das células caliciformes, infiltrado eosinofílico e espessamento da musculatura lisa duodenal. Houve aumento na expressão de STAT 6 nos animais infectados. O tratamento com a Dexametasona inibiu drasticamente estas alterações. Entretanto o número de parasitas foi significativamente maior nos ratos infectados tratados quando comparados aos infectados. As alterações intestinais durante a infecção ocorreram na tentativa de expulsar o parasita e resolução da infecção. Contudo, a inibição deste processo provocada pela Dexametasona possivelmente retardou ou impediu a resolução da infecção. / Strongyloidiasis is an intestinal parasitosis with an obligatory pulmonary cycle, which represents the fourth largest parasitosis caused by nematodes. The mechanism of defense against strongyloidiasis is mediated by activation of Th2 cells, which amplify the cellular response through the secretion of inflammatory mediators. Strongyloidiasis is a serious public health problem due the development of hyperinfection, due to the use of glucocorticoids, where the number of worms and females increases, and disseminate to other organs. Studies have shown that some helminth infections have been accompanied by hypertrophy of intestinal muscles and hypercontractility, JAK-STAT 6 pathway. However little has been reported about on the influence of JAK-STAT 6 pathway in changes of the muscular wall of the duodenum during Strongyloides venezuelensis infection. The aim of this study was to identify the morphological, immunological and pathological changes of the intestinal smooth muscle during Strongyloides venezuelensis in Wistar rats and to determine the effects of Dexamethasone treatment and role of JAK-STAT 6 pathway in these process. Wistar rats were inoculated with S. venezuelensis larvae, treated with dexamethasone and killed at 5, 7, 14 and 21 days. Morphological and morphometric analyzes with routine stains to quantify globet cells, eosinophils and measure the circular and longitudinal layers of duodenal smooth muscle. Performed gene expression analysis of STAT 6. Goblet cell hyperplasia and increased of intestine smooth muscle wall thickness and eosinophils levels were elevated throughout the course of the infection. Moreover, an increase in the expression of STAT 6 in infected animals. The morphological findings and the immunomodulatory response to the infection were drastically reduced in dexamethasone-treated rats. However, the number of worms was significantly higher on infected and treated rats with Dexamethasone compared to just infected ones. The intestinal changes during infection ocurred in an attempt of expel the parasite and elucidate the infection. Although, the inhibition of the process caused by Dexamethasone possibly delay or prevent the resolution of infection Dexametasona Dexamethasone Intestino delgado Músculo liso Small intestine Smooth muscle STAT STAT Strongyloides venezuelensis Strongyloides venezuelensis
37	Análise das alterações na musculatura duodenal e resposta do hospedeiro contra infecção pelo Strongyloides venezuelensis e tratamento com Dexametasona: o papel da via JAK-STAT 6 / Analysis of changes in the duodenal musculature and host response to infection venezuelensis Strongyloides and Dexamethasone treatment: the role of the JAK-STAT 6 Nathalia Butschkau Palazzin Yodono 16 August 2016 (has links) A estrongiloidíase é uma parasitose intestinal sendo considerada a quarta maior causada por nematódeos. O mecanismo de defesa contra a estrongiloidíase é mediada pela ativação de células de perfil Th2, que amplificam a resposta celular através da secreção de mediadores inflamatórios. O que faz da estrongiloidíase um grave problema de saúde pública, é o desenvolvimento da hiperinfecção, principalmente devido ao uso de glicocorticóides, onde ocorre aumento do número de larvas e fêmeas que se disseminam por todo organismo. Estudos demonstraram que algumas infecções helmínticas têm sido acompanhadas por hipertrofia e hipercontratillidade da musculatura intestinal, via JAK-STAT 6. Entretanto pouco se sabe sobre a influência desta via nas alterações da parede muscular do duodeno durante infecção pelo Strongyloides venezuelensis. O presente trabalho objetivou investigar as alterações morfológicas, imunológicas e patológicas da musculatura lisa intestinal que ocorrem em decorrência da infecção experimental pelo S. venezuelensis, bem como a interferência do tratamento com Dexametasona e o papel da via JAK - STAT 6 neste processo. Ratos Wistar foram inoculados com larvas de S. venezuelensis, tratados com dexametasona e sacrificados nos dias 5, 7, 14 e 21. Foram realizadas diversas colorações com a finalidade de quantificar as fêmeas adultas no duodeno, realizar morfometria da musculatura duodenal, quantificar eosinófilos e células caliciformes. Foi realizada análise da expressão gênica do gene STAT 6. Nossos resultados mostraram hiperplasia das células caliciformes, infiltrado eosinofílico e espessamento da musculatura lisa duodenal. Houve aumento na expressão de STAT 6 nos animais infectados. O tratamento com a Dexametasona inibiu drasticamente estas alterações. Entretanto o número de parasitas foi significativamente maior nos ratos infectados tratados quando comparados aos infectados. As alterações intestinais durante a infecção ocorreram na tentativa de expulsar o parasita e resolução da infecção. Contudo, a inibição deste processo provocada pela Dexametasona possivelmente retardou ou impediu a resolução da infecção. / Strongyloidiasis is an intestinal parasitosis with an obligatory pulmonary cycle, which represents the fourth largest parasitosis caused by nematodes. The mechanism of defense against strongyloidiasis is mediated by activation of Th2 cells, which amplify the cellular response through the secretion of inflammatory mediators. Strongyloidiasis is a serious public health problem due the development of hyperinfection, due to the use of glucocorticoids, where the number of worms and females increases, and disseminate to other organs. Studies have shown that some helminth infections have been accompanied by hypertrophy of intestinal muscles and hypercontractility, JAK-STAT 6 pathway. However little has been reported about on the influence of JAK-STAT 6 pathway in changes of the muscular wall of the duodenum during Strongyloides venezuelensis infection. The aim of this study was to identify the morphological, immunological and pathological changes of the intestinal smooth muscle during Strongyloides venezuelensis in Wistar rats and to determine the effects of Dexamethasone treatment and role of JAK-STAT 6 pathway in these process. Wistar rats were inoculated with S. venezuelensis larvae, treated with dexamethasone and killed at 5, 7, 14 and 21 days. Morphological and morphometric analyzes with routine stains to quantify globet cells, eosinophils and measure the circular and longitudinal layers of duodenal smooth muscle. Performed gene expression analysis of STAT 6. Goblet cell hyperplasia and increased of intestine smooth muscle wall thickness and eosinophils levels were elevated throughout the course of the infection. Moreover, an increase in the expression of STAT 6 in infected animals. The morphological findings and the immunomodulatory response to the infection were drastically reduced in dexamethasone-treated rats. However, the number of worms was significantly higher on infected and treated rats with Dexamethasone compared to just infected ones. The intestinal changes during infection ocurred in an attempt of expel the parasite and elucidate the infection. Although, the inhibition of the process caused by Dexamethasone possibly delay or prevent the resolution of infection Dexametasona Intestino delgado Músculo liso STAT Strongyloides venezuelensis Dexamethasone Small intestine Smooth muscle STAT Strongyloides venezuelensis
38	Modélisation des néoplasmes myéloprolifératifs grâce aux cellules souches induites à la pluripotence (IPSC) / Modeling of myeloproliferative neoplasms thanks to an induced pluripotent stem cell model (IPSC) Secardin, Lise 25 November 2016 (has links) Les néoplasmes myéloprolifératifs (NMP) sont hémopathies malignes aboutissant à la surproduction d'une ou plusieurs lignées myéloïdes. Elles sont dues à l'acquisition de mutations sur l'axe de signalisation MPL/JAK2 incluant des mutations de JAK2V617F, de MPL et plus récemment de la calréticuline (CALR), dont les deux principales sont CALRdel52 et CALRins5. Ces mutations de signalisations peuvent être accompagnées de mutations de l'épigénétique, les plus importantes étant des mutations dans TET2. Le but de cette thèse était d'étudier le rôle des mutations de TET2 et de la calrdel52 dans les NMP grâce à une technologie de cellules souches induites à la pluripotence (IPSC). Dans la première partie j'ai pu démontrer que TET2 joue un rôle dans le processus de reprogrammation, vraisemblablement de manière indépendante de son activité catalytique. Dans la seconde partie, j'ai démontré que CALRdel52 joue un rôle dans les MPN en provoquant une hypersensibilité et une pousse indépendante de la TPO des progéniteurs mégakaryocytaires ainsi qu'une hyperprolifération des mégacaryocytes, liées à l'activation constitutive de stat3 et de ERK. J'ai également démontré une pousse indépendante du GCSF des granulocytes. Ce travail a donc permis de mettre en lumière le rôle du facteur épigénétique TET2 dans le processus de reprogrammation ainsi que le rôle de CALRdel52 dans les MPN dans un contexte d'expression endogène. / Myeloproliferative neoplasms (NMP) are hematological malignancies that lead to an ovrproduction of one or more myeloid lineages. They are driving by mutations in MPLl/jak2 signaling pathway, mainly JAK2V617F, MPL, and more recently calreticulin (CARL), with two main mutations being calrdel52 and calrins5. These signaling mutations are sometimes associated with epigenetic mutations, the major one being in tet2. The objective of my thesis was to study the role of TET2 and CALRdel52 in MPN thanks to an induced pluripotent stem cells (IPSC) model. In the first part i demonstrated the role of TET2 in reprogramming process, probably independently of the catalytic domain. In the second part i demonstrated that CALRdel52 induced a TPO hypersensitivity and a TPO indenpendant growth of the megakaryocytic progenitors as well as a hyperproliferation of the megakaryocytes. This phenotype is associated with a constitutive activation of stat3 and ERK. A G-CSF independent growth of the granulocyte was also demonstrated. In conclusion this work underline the role of an epegenetic factor, TET2, in the reprogramming process and demonstrate the role of CALRdel52in MPN with an endogenous expression model. Néoplasmes myéloprolifératifs JAK/STAT TET2 IPSC Myeloproliferative neoplasms JAK/STAT TET2 IPSC
39	STAT 5 geno aptikimas ir jo polimorfizmo nustatymas Lietuvoje veisiamose galvijų veislėse / Investigation of STAT 5 gene polymorphism in cattle bred in Lithuania Žalinkevičiūtė, Odeta 19 March 2008 (has links) Darbo tikslas - ištirti STAT 5 geno įvairovę Lietuvoje auginamų galvijų tarpe. LVA Gyvūnų genetikos laboratorijoje įdiegta galvijų STAT 5 geno, ištyrimo metodika. Pirmą kartą ištirtas STAT 5 geno polimorfizmas Lietuvoje auginamų galvijų tarpe Darbo uždaviniai: 1. Surinkti ir išanalizuoti mokslinę literatūrą apie mėsinių galvijų STAT 5 geną ir ištirti jo įtaką produktyviosioms savybėms, ieškoti straipsnių internetinėse svetainėse nagrinėjama tema; 2. Įdiegti galvijų STAT 5 geno tyrimo metodiką LVA K.Janušausko Gyvūnų genetikos laboratorijoje; 3. Ištirti STAT 5 geno įvairovę Lietuvoje auginamų galvijų tarpe, naudojant sumodeliuotus pradmenis pagal geno seką; 4. Nustatyti STAT 5 geno aleli�� ir genotipų dažnius skirtingose galvijų veislėse. / Object and tasks of work. Analyse and summarize literature about STAT 5 gene in cattle. Introduce bovine STAT 5 gene research methodology at K. Janušauskas Laboratory of Animal Genetics, LVA..Investigate STAT 5 gene polymorphism and distribution of different alleles and genotypes in cattle breeds bred in Lithuania. Research methodology. DNA extraction from hair roots; PGR to amplify STAT 5 gene; RFLP method-STAT 5 – enzyme AvaI; Electrophoresis in agarose gel; Staining with etidium bromide; Genotyping; Statistical analysis of data. Results and conclusions. Two alleles C and T were found in tested cattle group identified by PGR-RFLP method. There was found a bit lower heterozigosity than expected in STAT 5 gene locus. The frequency of C allele was 0,89, T allele – 0,11, CC genotipe – 0,79, Ct genotipe -0,21. TT genotipe was not found. In all tested cattle breeds prevailing was found C allele and CC genotipe varying from 50 percent in Sharole breed to 100 percent in simental breed. CT heterozygote genotipe in pargest frequency 0,5 found in Sharole breed and lowest frequency 0,03 in Lithuanian black and white. Zootechny STAT 5 genas Galvijai Poliformizmas STAT 5 gene Cattle Polymorphism
40	Early events in cytokine receptor signaling Gandhi, Hetvi 04 March 2014 (has links) (PDF) Ligand-activated signal transduction is a process critical to cell survival and function as it serves as a means of communication between the cells and their environment. Endocytosis is generally thought to down-regulate incoming signals by reducing the surface availability of receptors. However, increasing evidence in many systems suggests a notion which is referred to as the „signalling endosome" hypothesis - that endocytosis can also actively contribute to signalling apart from clearance of activated receptors and thereby attenuation of signalling. The functional aspect of signalling endosomes has been well-characterized in several pathways including RTK and TGF-β signalling. There are, however, various other signalling pathways where the active mechanism of endocytotic regulation is yet to be understood. In this study, we probe this aspect in the cytokine signalling system, where the receptors are known to internalize but the significance of such internalization and precise mechanism is unclear. My thesis aims to elucidate the function and molecular details of internalization of cytokine receptor using interleukin-4 receptor (IL-4R) signalling as a model. IL-4 and IL-13 ligands can induce assembly of three distinct complexes: IL4 induced IL-4Rα – IL-2Rγ (type I), IL-4 induced IL-4Rα – IL-13Rα1 (type II) or the IL-13 induced IL-13Rα1-IL-4Rα (type II). The formation of any of these complexes triggers signalling through the JAK/STAT pathway. However, models of how the oligomerization of the transmembrane receptors and activation takes place are very diverse and lack a clear molecular and biophysical understanding of the underlying receptor dynamics. Previous results of the lab had shown that the affinities between subunits are low, precluding complex formation at the plasma membrane at physiological concentrations. In addition, IL-4R subunits localize in to endosomal structures adjacent to the plasma membrane. It had already been shown that the shared IL-4R subunit IL-2Rγ is internalized by a specific, actin dependent, Rac1/Pak1 regulated endocytosis route in the IL-2 context. We could show that pharmacological suppression of this endocytosis pathway also prevented IL-4 induced JAK/STAT signalling, placing endocytosis upstream of signalling. Here I show using immuno-EM techniques that these endosomal structures are multivesicular bodies. Importantly, I could show that receptor subunits are highly enriched in the limiting membrane of these endosomes relative to the adjacent plasma membrane. Using quantitative loading assays I could furthermore demonstrate that this enrichment is achieved by constitutive internalization of receptors from the cell surface into cortical endosomes. The trafficking kinetics of the receptor subunits is independent of ligand occupancy. Pharmacological inhibition shows that receptors and ligand traffic via the previously identified Rac1/Pak1 pathway. Finally, Vav2 was identified as a candidate Guanine Exchange Factor (GEF) that may regulate Rac1 activity and thereby control the actin polymerization cascade driving IL-4R endocytosis. Immunoprecipitations showed that Vav2 interacts both with the cytoplasmic tail region of the receptors and the receptor associated 2 kinase JAK3. Vav2 may thus couple the receptor/JAK complexes to the Rac1/Pak1 mediated endocytosis route. Taken together, our results suggests that stable „signalling endosomes‟ adjacent to the plasma membrane act as enrichment centres, where ligand and receptor concentrations are locally increased by constitutive trafficking. The confined environment of the endosome then compensates for the weak affinities between the ligand and receptor and facilitates ligand-mediated receptor dimerization. Importantly, overexpression of both type II IL-4R subunits renders signal transduction resistant to endocytosis inhibition, strongly suggesting that the critical factor effecting signalling is sufficient concentration, which the endosomes facilitate achieving. The endosomes are thus dispensable as signalling scaffolds when the receptors are in sufficient concentration, where activated receptors could interact with downstream pathway components. Endocytosis thus provides a crucial means for the signalling process to overcome the thermodynamic hurdles for receptor oligomerization. In conclusion, our data propose a novel, purely thermodynamic role of endosomes in regulating cytokine receptor signalling not seen in any other signalling pathway. Zytokinrezeptor Endosom JAK-STAT cytokine receptor endosome JAK-STAT ddc:570 rvk:WE 5200

Search results