Global ETD Search

31	Regulation of the protein synthesis machinery in the striatum / Régulation de la machinerie de synthèse protéique dans le striatum Biever, Anne 15 June 2016 (has links) Le striatum dorsal et le noyau accumbens (NAc) jouent un rôle crucial dans la sélection et l’exécution de mouvements résultant de l’intégration de signaux dopaminergiques et d’informations glutamatergiques sensorielles. A ce jour, les mécanismes moléculaires à travers lesquels la dopamine (DA) régule la plasticité des neurones épineux moyens du striatum (MSNs) sont peu connus. La synthèse des protéines est un événement essentiel requis pour la plasticité synaptique et la mémoire à long terme. Dans de nombreuses régions cérébrales, l’initiation, étant l'étape limitante de la synthèse protéique, est contrôlée par la phosphorylation de facteurs d’initiation de la traduction (eIFs). Notre hypothèse est que la DA pourrait réguler la traduction d’ARNm dans le striatum à travers des mécanismes moléculaires similaires. La première partie de cette thèse visait à étudier le rôle de la DA dans la régulation de la machinerie de traduction dans les MSNs. Pour ce faire, nous avons analysé au niveau du striatum, la phosphorylation de différents eIFs en réponse à l’administration aigue ou répétée de d-amphetamine (d-amph), entraînant une augmentation transitoire ou de longue durée de la transmission dopaminergique, respectivement. Bien que l’administration de la d-amph est associée à une légère augmentation de pS209-eIF4E, l’état de phosphorylation de S1108-eIF4G reste inchangé. En revanche, une forte augmentation de p51-eIF2α a été observée après administration répétée d-amph. Nous démontrons que la phosphorylation de 51-eIF2α est corrélée à une diminution transitoire de la synthèse protéique globale dans le striatum. En outre, la d-amph induit également une importante augmentation de la phosphorylation de la protéine ribosomale S6 (rpS6). Cet effet se produit spécifiquement dans MSNs exprimant le récepteur D1 à la DA et implique la cascade de signalisation AMPc/PKA/DARPP-32, tout en étant indépendant des voies mTORC1/S6K et ERK. La phosphorylation de rpS6 est couramment utilisée pour marquer de l'activité neuronale bien que son rôle biologique dans le cerveau reste énigmatique. Compte tenu sa régulation significative par la DA, la deuxième partie de cette thèse a eu pour but d’acquérir de nouvelles connaissances sur la fonction de la phosphorylation de rpS6 en utilisant un modèle de souris rpS6 déficient de ses sites de phosphorylations, rpS6P-/-. Dans ces souris transgéniques la synthèse protéique globale est normale dans diverses régions du cerveau. Néanmoins, les souris rpS6P -/- présentent une altération de la traduction d'un sous-ensemble de ARNm, ceci sélectivement dans le NAc, suggérant le rôle potentiel de la phosphorylation de rpS6 dans la régulation de la traduction de transcrits bien spécifiques au sein de cette sous-région du striatum. Dans l'ensemble, les résultats présentés dans cette thèse permettent une meilleure compréhension des mécanismes engagés par DA pour contrôler la traduction d’ ARNm dans les MSNs du striatum. / The dorsal striatum and the nucleus accumbens (NAc) process dopamine (DA) signals in order to generate appropriate behavior in response to given glutamatergic sensory cues. The molecular mechanisms through which DA promotes long-lasting changes in striatal GABAergic medium-sized spiny neurons (MSNs) are still not fully understood. It is widely accepted that protein synthesis is an essential event required for several forms of synaptic plasticity and long-term memory. In various brain areas, initiation is the rate-limiting step of translation and is regulated through phosphorylation of translation initiation factors (eIFs). Whether DA could regulate mRNA translation in the striatum through similar mechanisms is yet poorly investigated. A first part of this thesis aimed to shed light on the role of DA in the regulation of the translational machinery in MSNs. Here, we measured the phosphorylation state of eIFs following single and repeated in vivo d-amphetamine (d-amph) administration, resulting in a transient or long-lasting increase of the dopaminergic transmission, respectively. Although d-amph exposure slightly enhances the striatal pS209-eIF4E, pS1108-eIF4G remains unchanged. In contrast, a strong increase in p51-eIF2α is observed after repeated d-amph administration. We demonstrate that d-amph-induced p51-eIF2α is associated to a transient decrease in generall striatal protein synthesis. In addition, d-amph markedly increases the striatal phosphorylation of the 40S ribosomal protein S6 (rpS6). This effect occurs selectively in D1 DA receptor (D1R)-expressing MSNs and requires the cAMP/PKA/DARPP-32 cascade but is independent of mTORC1/S6K and ERK signaling. rpS6 phosphorylation is commonly used as a marker for neuronal activity even though its biological role in the brain remains puzzling. Given the significant regulation of striatal rpS6 phosphorylation by DA, the second part of this thesis sought to gain new insights into the function of this post-translational event by using a phosphodeficient rpS6P-/- mouse model. We showed that rpS6P-/- mice display unaltered global protein synthesis in different brain regions. Nonetheless, rpS6P-/- mice exhibit impaired translation of a subset of mRNA selectively in the NAc, pointing to the potential role of rpS6 phosphorylation in the regulation of transcript-specific translation within this striatal sub-region. Overall, the results presented in this thesis provide a better understanding of the mechanisms engaged by DA to control mRNA translation in striatal MSNs. Psychostimulants Dopamine Striatum Traduction d'ARNm Plasticité striatale Signalisation intracellulaire Psychostimulants Dopamine Striatum MRNA translation Striatal plasticity Intracellular signaling pathways
32	Inflammasomes and the Innate Immune Response Against Yersinia Pestis: A Dissertation Vladimer, Gregory I. 10 January 2013 (has links) Yersinia pestis, the causative agent of plague, is estimated to have claimed the lives of 30-50% of the European population in five years. Although it can now be controlled through antibiotics, there are still lurking dangers of outbreaks from biowarfare and bioterrorism; therefore, ongoing research to further our understanding of its strong virulence factors is necessary for development of new vaccines. Many Gram-negative bacteria, including Y. pseudotuberculosis, the evolutionary ancestor of Y. pestis, produce a hexa-acylated lipid A/LPS which can strongly trigger innate immune responses via activation of Toll-like receptor 4 (TLR4)-MD2. In contrast, Y. pestis grown at 37ºC generates a tetra-acylated lipid A/LPS that poorly induces TLR4-mediated immune activation. We have reported that expression of E. coli lpxL in Y. pestis, which lacks a homologue of this gene, forces the biosynthesis of a hexa-acylated LPS, and that this single modification dramatically reduces virulence in wild type mice, but not in mice lacking a functional TLR4. This emphasizes that avoiding activation of innate immunity is important for Y. pestis virulence. It also provides a model in which survival is strongly dependent on innate immune defenses, presenting a unique opportunity for evaluating the relative importance of innate immunity in protection against bacterial infection. TLR signaling is critical for the sensing of pathogens, and one implication of TLR4 engagement is the induction of the pro-forms of the potent inflammatory cytokines IL-1β and IL-18. Therefore Y. pestis is able to suppress production of these which are generated through caspase-1-activating nucleotide-binding domain and leucine-rich repeat (NLR)-containing inflammasomes. For my thesis, I sought to elucidate the role of NLRs and IL-18/IL-1β during bubonic and pneumonic plague infection. Mice lacking IL-18 signaling led to increased susceptibility to wild type Y. pestis, and an attenuated strain producing a Y. pseudotuberculosis-like hexa-acylated lipid A. I found that the NLRP12, NLRP3 and NLRC4 inflammasomes were important protein complexes in maturing IL-18 and IL-1β during Y. pestis infection, and mice deficient in each of these NLRs were more susceptible to bacterial challenge. NLRC4 and NLRP12 also directed interferongamma production via induction of IL-18 against plague, and minimizing inflammasome activation may have been a central factor in evolution of the high virulence of Y. pestis. This is also the first study that elucidated a pro-inflammatory role for NLRP12 during bacterial infection. Inflammasomes Innate Immunity Yersinia pestis Virulence Factors Dissertations, UMMS Immunity, Innate Immunity Immunology and Infectious Disease
33	Comparing mutant p53 and a wild-type p53 isoform, p47 : rationale for the selection of mutant p53 in tumours Marini, Wanda. January 2009 (has links) No description available. Nuclear Proteins -- metabolism. Alternative Splicing.
34	Definition of Rapid 17β-Estradiol Signaling Networks in Developing Cerebellar Granule Cells LE, HOA HIEN 26 September 2008 (has links) No description available. Pharmacology estradiol estrogen estrogen receptor endocrine disrupting chemicals cerebellum granule cells viability rapid actions intracellular signaling pathways
35	Identification de nouvelles stratégies thérapeutiques renforçant le rôle des analogues du GLP-1 pour préserver et/ou restaurer la masse fonctionnelle β pancréatique / Identification of new therapeutic strategies to strengthening GLP-1 effects to preserve and/or to restore the functional pancreatic beta cell mass Varin, Elodie 19 September 2013 (has links) Les cellules β pancréatiques synthétisent et sécrètent l'insuline, seule hormone hypoglycémiante de l'organisme. Dans le cas du diabète de type 2, du diabète de type 1 et suite à une greffe d'îlots de Langherans, on observe une diminution drastique de cette masse fonctionnelle β. L'hyperglycémie chronique et la libération de cytokines proinflammatoires jouent un rôle cytotoxique prépondérant dans ces phénomènes. Dans le but de préserver ou de restaurer cette masse fonctionnelle β chez les patients diabétiques, notre objectif était d'identifier des outils permettant de protéger des effets délétères de l'hyperglycémie chronique et des cytokines proinflammatoires, en s'intéressant à 3 cibles potentielles. Nous montrons tout d'abord que les activités du système ubiquitine protéasome (UPS), impliqué dans la dégradation de protéines, sont altérées en condition d'hyperglycémie chronique. Ces altérations sont corrélées à l'émergence d'un programme apoptotique au sein des cellules β. L'activation du récepteur du GLP-1 (Glucagon-Like Peptide-1), stratégie thérapeutique majeure dans le diabète de type 2, protège l'UPS des effets délétères de l'hyperglycémie chronique. Le facteur de transcription CREB (cAMP Response Element Binding Protein), essentiel pour la survie et la fonction des cellules β, est dégradé par l'hyperglycémie chronique et l'inflammation. Nous montrons que la prévention de sa dégradation prévient les effets de l'hyperglycémie chronique, mais pas de l'inflammation. Ces observations nous ont amenés à étudier la MAP3 kinase Tpl2 (Tumor progression locus 2), impliquée, notamment via l'activation de ERK1/2 (Extra-cellular Regulated Kinases 1/2), dans les processus inflammatoires d'autres types cellulaires. Nous montrons que Tpl2 est exprimé dans la lignée cellulaire β INS-1E, et dans les îlots murins et humains, et qu'elle gouverne spécifiquement l'activation des kinases ERK1/2 induite par les cytokines proinflammatoires IL-1β, TNFα et IFNγ. Cette protéine est surexprimée dans des conditions d'inflammation (in vitro et modèle de diabète murin). L'inhibition de Tpl2 protège contre l'apoptose induite par les cytokines, dans les INS-1E et les îlots de souris et restaure la capacité sécrétrice d'insuline des ilots de souris altérée suite à une exposition aux cytokines. En combinaison avec un analogue du GLP-1, l'inhibition pharmacologique de cette kinase protège totalement contre les effets délétères des cytokines sur la fonction et la survie des îlots humains. Ces données suggèrent que l'inhibition pharmacologique de la kinase Tpl2, seule ou en combinaison avec un analogue du GLP-1, pourrait constituer de nouvelles stratégies thérapeutiques pour protéger contre l'altération de la masse fonctionnelle β pouvant survenir chez des patients diabétiques de type 2 ou après la transplantation d'îlots. / Pancreatic β cells synthesize and secrete insulin, the sole hormone of the organism able to reduce glycemia. In the course of type 2 and type 1 diabetes, and after islet transplantation, there is a drastic loss of function and mass of these cells. Among the common origins of this decrease, chronic hyperglycemia and the release of proinflammatory cytokines play major roles. With the aim to preserve or to restore this functional β cell mass in diabetic patients, our objective was to identify tools able to protect against deleterious effects of these two phenomenons, interesting in three potential targets. We first demonstrated that the ubiquitin-proteasome system (UPS) activities, that degrade proteins, are altered in β cells exposed to chronic hyperglycemia, and correlated with apoptosis. Activation of the GLP-1 (Glucagon-Like Peptide-1) receptor, a key therapeutic strategy in type 2 diabetes, protects UPS from deleterious effects of chronic hyperglycemia. The transcription factor CREB (cAMP Response Element Binding Protein), crucial for β cell survival and function, is involved in deleterious effects of chronic hyperglycemia and inflammation. We demonstrated that prevention of CREB degradation protects β cells from chronic hyperglycemia, but not from the deleterious effects of the proinflammatory cytokines. These observations prompted us to study the MAP3 kinase Tpl2 (Tumor progression locus 2), known to be implicated in inflammatory process in other cell types, through the activation of the kinases ERK1/2 (Extra-cellular Regulated Kinases 1/2). We showed that Tpl2 is expressed in INS-1E clonal β cells and in mouse and human islets, and that it governs specifically the activation of ERK1/2 in response to proinflammatory cytokines IL-1β, TNFα and IFNγ. This protein is overexpressed by inflammatory conditions and in a rat type 2 diabetes model. Inhibition of Tpl2 protects against cytokine-induced apoptosis in INS-1E and in mouse islets. Furthermore, the capacity of mouse islets to secrete insulin in response to glucose, that is altered by a chronic exposure to cytokines, is restored by Tpl2 inhibitor. Finally, we showed that in combination with GLP-1 analog (Exendin-4), Tpl2 inhibitor can entirely restore the survival and function in human islets cultured in pro-inflammatory conditions. These results suggest that pharmacological inhibition of Tpl2, alone or in combination with Exendin-4, may be novel therapeutic strategies to alleviate β-cell failure observed in Type 2 diabetes and islets transplantation. Diabète Cellule bêta pancréatique Inflammation Stratégie thérapeutique Glp-1 Signalisation intracellulaire Diabetes Pancreatic beta cell Inflammation Therapeutic strategies Glp-1 Intracellular signaling
36	Bases moleculares das ações rápidas do T3 na captação de glicose em célula adiposa 3T3-L1. / Molecular basis of rapid T3 actions on glucose uptake in 3T3-L1 adipocytes. Croffi, Rafael Vianna 24 March 2015 (has links) Os hormônios tireoidianos atuam sobre o metabolismo dos diversos tecidos do organismo e participam da regulação do consumo de glicose pelas células. Estudos já evidenciaram que o T3 atua, dependendo do tipo celular, aumentando a expressão de algumas isoformas dos transportadores de glicose (GLUTs) e a translocação do GLUT4 para a membrana plasmática, melhorando, também, a captação de glicose (CGlic) em poucos minutos. Os mecanismos envolvidos nessas ações do T3, contudo, ainda não estão bem esclarecidos. O objetivo do presente estudo foi investigar as possíveis vias de sinalização envolvidas na ação aguda do T3 sobre a CGlic em células adiposas 3T3-L1. Nossos dados demonstraram que o T3 promove aumento na CGlic, com pico aos 10 min, retornando ao nível do controle após 30 min de incubação das células com o hormônio. Sugerimos que essa ação depende, ao menos, de duas vias de sinalização. Uma delas envolve a ativação das proteínas Src, PI3K e Akt. A outra, aparentemente, é iniciada a partir da membrana plasmática via integrina aVb3 / Thyroid hormones act on the metabolism of many tissues and participate in the regulation of glucose consumption by cells. Studies from this and other laboratories have demonstrated in muscle and adipose cells that T3 increases, in a short period (minutes), the expression of some glucose transporter (GLUTs) isoforms and GLUT4 translocation to the plasma membrane leading to an improvement of glucose uptake. However, the mechanisms involved in these T3 actions are still not clear. The aim of this study was to investigate the possible signaling pathways involved in the acute T3 action on glucose uptake in 3T3-L1 adipocytes. Our results have shown that T3 increases glucose uptake with a peak at 10 min returning to the control level after 30 min of the cell incubation with the hormone. We suggest that this action depends on at least two parallel signaling pathways. One involves the activation of Src, PI3K and Akt proteins, while the other involves another mechanism triggered by T3, apparently, from the plasma membrane at aVb3 integrin. 3T3-L1 cells Ação não-genômica Adipócitos Adipocytes Captação de glicose Células 3T3-L1 Glucose uptake Hormônio tireoidiano Intracellular signaling pathways Non-genomic action Thyroid hormone Vias de sinalização intracelulares
37	Dieta normocalórica de ácidos graxos de cadeia média: Efeitos sobre a secreção de insulina, tecido adiposo e fígado de ratos jovens / Medium chain fat acid normocaloric diet: effects upon insulin secretion, adipose tissue and liver of young rats Marçal, Anderson Carlos 21 September 2009 (has links) A suplementação dietética com AGCM induz resistência à insulina, redução de peso ponderal e aumento da adiposidade em ratos Wistar. Adipócitos isolados apresentam reduzidas captação de glicose estimulada por insulina e atividade/fosforilação da proteína AMPK. A expressão protéica do IR no tecido hepático está aumentada em animais tratados com AGCM com redução do grau de fosforilação, enquanto que o grau de fosforilação da proteína AKT permaneceu semelhante entre os grupos. Ilhotas pancreáticas isoladas apresentam redução na secreção de insulina quando incubadas com altas concentrações de glicose, diminuição do conteúdo total de insulina, hipersensibilidade a leucina e/ou arginina e aumento do percentual de morte celular com diminuída expressão da proteína AKT_1 . Desta forma, utilização em longo prazo dessa estratégia nutricional pode interferir no crescimento normal do indivíduo, na sensibilidade à insulina e possívelmente, desenvolvimento e instalação do diabetes. / The introduction of MCFA into diet induces insulin resistance, reduced body weight gain, and increased adiposity in Wistar rats. Isolated adipocytes have reduced insulin induced glucose uptake and phosphorylation/activation of AMPK protein. The insulin receptor protein expression is increased in liver of MCFA fed rats accompanied by reduced tyrosine phosphorylation, with similar AKT serine phosphorylation. Isolated pancreatic islets had reduced glucose stimulated insulin secretion due to high glucose exposure and reduced insulin content; higher insulin secretion induced by leucine and arginine, and increased apoptosis with reduced AKT protein level. In these regard, the chronic ingestion of MCFA may interfere with normal body growth, with the insulin sensitivity and may participate with the development of diabetes. Adipose tissue AGCM Ilhotas pancreáticas Insulin receptor Insulin resistance Intracellular signaling MCFA Pancreatic islets Receptor para insulina Resistência à insulina Sinalização intracelular Tecido adiposo
38	Time-Resolved Phosphoproteomics Unravel the Dynamics of Intracellular Signaling Kubiniok, Peter 05 1900 (has links) No description available. Phosphoprotéomique Signalisation intracellulaire Spectrométrie de Masse Cancer Petites Molécules médicamenteuses Phosphoproteomics Intracellular signaling Mass spectrometry Small Molecule Drugs
39	The role of RalA and RalB in cancer / Falsetti, Samuel C. January 2008 (has links) Dissertation (Ph.D.)--University of South Florida, 2008. / Includes vita. Also available online. Includes bibliographical references.
40	Implication of intracellular signalling pathways in allergic asthma pathogenesis Pouliot, Philippe. January 2008 (has links) The regulation of systemic immune responses is dependent on individual cell responses that will concur to induce a coherent response against a stimulus. In turn, cell response is dependent on the processing of intracellular signals generated at the cell membrane and transmitted through successive protein modifications to the nucleus in order to activate gene transcription. This is referred to as intracellular signalling. Tight control of these mechanisms is required to generate an appropriate cell response to environmental stimulations and globally to establish an appropriate immune response. Among protein modifications used to transmit a signal to the nucleus, protein tyrosine phosphorylation represents a pivotal method used by immune cells to rapidly induce signalling. While protein tyrosine kinases (PTKs) phosphorylate proteins, protein tyrosine phosphatases (PTPs) regulate the signalling by removing the phosphate group. The goal of this study was to better characterize intracellular signalling events involved in allergic asthma, a chronic inflammatory disease involving a Th2 immune response. In a first time, we investigated the role of PTPs in the development of asthma. We show that inhibition of global PTP activity in mice, during either the allergen sensitization or the allergen challenge phase, reduces asthma development and is linked to an increased Th1 response in the spleen and lung. Secondly, we revealed that TC-PTP inhibition reduces asthma development, while PTP-1B inhibition exacerbates inflammatory cells recruitment to the lung. Inhibition of either SHP-1 or PTP-PEST activity did not significantly modulate asthma development in our model. In a third set of experiments, we got interested in the signalling pathways triggered by the pro-inflammatory molecules myeloid-related proteins (MRPs) 8 and 14. MRPs are small cytosolic proteins recently described to have extracellular functions. MRP8 expression is resistant to corticosteroid treatment, and potentially promotes inflammation in corticosteroid-treated patients. We identified that MRPs induce signal through the action of TLR-4 and trigger the activation of MEK/ERK and JNK pathways that lead to NF-kappaB translocation. Collectively, our data provide a new characterization of signalling pathways engaged in allergic asthma. This should be helpful in the elaboration of new therapeutic approaches targeting precise pathways to inhibit mechanisms of inflammation. Asthma -- immunology. Asthma -- etiology. Th1 Cells -- immunology. Organometallic Compounds. Phenanthrolines.

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