Global ETD Search

11	Mechanisms of Hypoxia-Induced Neurovascular Remodeling in PlGF Knockout Mice Freitas-Andrade, Moises 13 January 2012 (has links) Due to the high metabolic demand and low capacity for energy storage of the brain, neurons are vitally reliant on a constant oxygen supply. Under chronic mild hypoxic conditions (10% oxygen), angiogenesis is induced in the brain in an attempt to restore tissue oxygen tension to normal levels. In brain hypoxia, vascular endothelial growth factor (VEGF) plays a critical role in angiogenesis; however, the role of its homolog placental growth factor (PlGF) is unknown. Using PlGF knockout (PlGF-/-) mice exposed to whole body hypoxia (10% oxygen) for 7, 14 and 21-days, we show that PlGF-/- animals exhibit a delay in the angiogenic response of the brain to hypoxia. PlGF-/- microvessels had a significant increase in fibrinogen accumulation and extravasation, which correlated with disruption of the tight-junction protein claudin-5. These vessels displayed large lumens, were surrounded by reactive astrocytes, lacked mural cell coverage and endothelial VEGF expression, and regressed after 21 days of hypoxia. The lack of PlGF, in combination with reduced VEGF expression levels observed in the brain of PlGF-/- animals during the first 5 days of hypoxia, is likely the cause of the delayed angiogenic response and the prothrombotic phenotype of these mice. In vitro studies conducted to analyze mechanisms involved in the impaired angiogenic phenotype and enhanced astrocytic reactivity to hypoxia of PlGF-/- animals indicated that: i) PlGF-/- mouse brain endothelial cells exhibit alterations in intracellular signaling pathways associated with sprouting (ERK1/2) and vessel branching morphogenesis (GSK-3β) and ii) PlGF-/- astrocytes overexpress VEGF receptor-2 (VEGFR-2) which through activation of the ERK1/2 signaling pathway leads to a more proliferative astrocytic phenotype. These astrocytes were more resistant to oxygen and glucose deprivation (OGD) than PlGF+/+ astrocytes, a characteristic that was shown to be independent of the classical antiapoptotic VEGFR-2-dependent PI3K/Akt pathway. The findings presented in this thesis demonstrated a critical role of PlGF in vascular remodeling in the hypoxic brain. Hypoxia Astrocytes Brain endothelial cells Angiogenesis Neurovascular Placental growth factor PlGF VEGF Chronic hypoxia OGD Brain angiogenesis
12	Mechanisms of Hypoxia-Induced Neurovascular Remodeling in PlGF Knockout Mice Freitas-Andrade, Moises 13 January 2012 (has links) Due to the high metabolic demand and low capacity for energy storage of the brain, neurons are vitally reliant on a constant oxygen supply. Under chronic mild hypoxic conditions (10% oxygen), angiogenesis is induced in the brain in an attempt to restore tissue oxygen tension to normal levels. In brain hypoxia, vascular endothelial growth factor (VEGF) plays a critical role in angiogenesis; however, the role of its homolog placental growth factor (PlGF) is unknown. Using PlGF knockout (PlGF-/-) mice exposed to whole body hypoxia (10% oxygen) for 7, 14 and 21-days, we show that PlGF-/- animals exhibit a delay in the angiogenic response of the brain to hypoxia. PlGF-/- microvessels had a significant increase in fibrinogen accumulation and extravasation, which correlated with disruption of the tight-junction protein claudin-5. These vessels displayed large lumens, were surrounded by reactive astrocytes, lacked mural cell coverage and endothelial VEGF expression, and regressed after 21 days of hypoxia. The lack of PlGF, in combination with reduced VEGF expression levels observed in the brain of PlGF-/- animals during the first 5 days of hypoxia, is likely the cause of the delayed angiogenic response and the prothrombotic phenotype of these mice. In vitro studies conducted to analyze mechanisms involved in the impaired angiogenic phenotype and enhanced astrocytic reactivity to hypoxia of PlGF-/- animals indicated that: i) PlGF-/- mouse brain endothelial cells exhibit alterations in intracellular signaling pathways associated with sprouting (ERK1/2) and vessel branching morphogenesis (GSK-3β) and ii) PlGF-/- astrocytes overexpress VEGF receptor-2 (VEGFR-2) which through activation of the ERK1/2 signaling pathway leads to a more proliferative astrocytic phenotype. These astrocytes were more resistant to oxygen and glucose deprivation (OGD) than PlGF+/+ astrocytes, a characteristic that was shown to be independent of the classical antiapoptotic VEGFR-2-dependent PI3K/Akt pathway. The findings presented in this thesis demonstrated a critical role of PlGF in vascular remodeling in the hypoxic brain. Hypoxia Astrocytes Brain endothelial cells Angiogenesis Neurovascular Placental growth factor PlGF VEGF Chronic hypoxia OGD Brain angiogenesis
13	Mesure de l'innovativité et facteurs d'adoption des innovations Web : le cas des Organismes de Gestion de Destination (OGD) français / Measuring the Innovativeness and Factors of ICT Adoption : The Case of French DMO Zaman, Mustafeed Al Ridwaan 05 July 2018 (has links) Le développement des TIC et les innovations numériques qui en découlent ont radicalement changé le comportement des consommateurs. Les organisations s’adaptent à ces changements en transformant leurs pratiques. L’objet de cette recherche est l’innovativité Web comprise comme la capacité des organisations à adopter les innovations Web. La recherche interroge les pratiques d’adaptation des organisations en faveur du numérique : Comment piloter le changement numérique dans les organisations ? Le champ de recherche porte sur les Organismes de Gestion de Destination Touristique (OGD) qui ont la responsabilité du management du tourisme sur leur territoire de compétence. Cette thèse s’articule en deux parties. La première partie se focalise sur la mesure de l’innovativité des sites Web des OGD. Une grille d’analyse de l’innovativité est proposée et les méthodes de l’Aide Multi-Critères à la Décision (AMCD) sont employées afin d’évaluer la performance relative des sites Web de 30 OGD français. La logique du benchmarking est adoptée. Les résultats hétérogènes de cette approche quantitative nous poussent à chercher dans un second temps les facteurs explicatifs de l’innovativité. Pourquoi certains OGD sont-ils plus innovants que d’autres ? Quels sont les facteurs qui facilitent l’adoption des innovations Web par les OGD ? A cet égard, notre seconde partie traite des facteurs d’adoption des innovations Web dans les organisations. Une analogie entre PME et OGD est proposé afin d’identifier théoriquement les facteurs d’adoption des innovations Web. La méthodologie de recherche retenue pour cette seconde partie est de nature exploratoire et qualitative et correspond à un positionnement épistémologique de type interprétativiste. Des entretiens semi-directifs sont menés auprès d’experts en Management du Tourisme et l’étude du cas d’un OGD particulier permet de comprendre en profondeur le pilotage du changement numérique dans les organisations. Cette thèse en sciences de gestion s’inscrit en Management du Tourisme et présente des apports théoriques, méthodologiques et managériaux. Nous proposons un cadre théorique d’analyse de l’innovation Web et nous proposons une méthodologie robuste pour l’opérationnaliser. Cette méthodologie utilise les nombres flous, encore peu employés dans les sciences de gestion et pourtant porteurs de sens lors d’évaluations utilisant des échelles linguistiques. Les résultats de cette approche quantitative sont autant de perspectives d’amélioration des pratiques par les responsables d’OGD. Enfin, nous étudions le pilotage du changement dans les OGD en identifiant les facteurs d’adoption des innovations Web. / The development of ICT has radically changed the customer behaviour and their decision making process. Therefore, the organisations/companies should adapt themselves to these changes by transforming their practices. This thesis has two parts. In the first part, we explore the website-service innovativeness of 30 French DMO websites. An empirical approach is used to establish a structured framework of six evaluation criteria for website’s innovativeness. Fuzzy logic is employed in order to objectively evaluate the service-innovativeness and overall e-service quality of the DMO websites by using the linguistic variables. The TOPSIS method enables a comparison of the relative rankings of DMO websites, and also facilitates an objective metric as a benchmark to compare innovativeness overtime. The heterogeneous results oblige us to conduct an exploratory study in order to understand the reason behind this ranking. In this regard, in the 2nd part, we have focused on the factors of ICT adoption. Semi-structured interviews have been done with the tourism experts in order to understand the factors that facilitate the ICT adoption by the French DMO. Finally, we present the case of one of our benchmarks (Bordeaux Tourist Office) in order to illustrate the ICT adoption process. Innovation WEB Management du tourisme Innovativité OGD Tourism management Innovativeness ICT Adoption Fuzzy TOPSIS DMO 650
14	Mechanisms of Hypoxia-Induced Neurovascular Remodeling in PlGF Knockout Mice Freitas-Andrade, Moises January 2012 (has links) Due to the high metabolic demand and low capacity for energy storage of the brain, neurons are vitally reliant on a constant oxygen supply. Under chronic mild hypoxic conditions (10% oxygen), angiogenesis is induced in the brain in an attempt to restore tissue oxygen tension to normal levels. In brain hypoxia, vascular endothelial growth factor (VEGF) plays a critical role in angiogenesis; however, the role of its homolog placental growth factor (PlGF) is unknown. Using PlGF knockout (PlGF-/-) mice exposed to whole body hypoxia (10% oxygen) for 7, 14 and 21-days, we show that PlGF-/- animals exhibit a delay in the angiogenic response of the brain to hypoxia. PlGF-/- microvessels had a significant increase in fibrinogen accumulation and extravasation, which correlated with disruption of the tight-junction protein claudin-5. These vessels displayed large lumens, were surrounded by reactive astrocytes, lacked mural cell coverage and endothelial VEGF expression, and regressed after 21 days of hypoxia. The lack of PlGF, in combination with reduced VEGF expression levels observed in the brain of PlGF-/- animals during the first 5 days of hypoxia, is likely the cause of the delayed angiogenic response and the prothrombotic phenotype of these mice. In vitro studies conducted to analyze mechanisms involved in the impaired angiogenic phenotype and enhanced astrocytic reactivity to hypoxia of PlGF-/- animals indicated that: i) PlGF-/- mouse brain endothelial cells exhibit alterations in intracellular signaling pathways associated with sprouting (ERK1/2) and vessel branching morphogenesis (GSK-3β) and ii) PlGF-/- astrocytes overexpress VEGF receptor-2 (VEGFR-2) which through activation of the ERK1/2 signaling pathway leads to a more proliferative astrocytic phenotype. These astrocytes were more resistant to oxygen and glucose deprivation (OGD) than PlGF+/+ astrocytes, a characteristic that was shown to be independent of the classical antiapoptotic VEGFR-2-dependent PI3K/Akt pathway. The findings presented in this thesis demonstrated a critical role of PlGF in vascular remodeling in the hypoxic brain. Hypoxia Astrocytes Brain endothelial cells Angiogenesis Neurovascular Placental growth factor PlGF VEGF Chronic hypoxia OGD Brain angiogenesis
15	Avaliação de parâmetros neuroquímicos em fatias de hipocampo de rato submetidas à privação de oxigênio e glicose Hansel, Gisele January 2009 (has links) Mesmo a isquemia sendo a terceira causa de morte em países industrializados, os mecanismos relacionados a esta doença ainda continuam polêmicos e obscuros. Utilizou-se a técnica de privação de oxigênio e glicose (OGD) em fatias do hipocampo de rato para investigar parâmetros mitocondriais, neurais, astrogliais e metabólicos no período de isquemia e durante o período de reoxigenação. Os resultados mostraram uma diminuição na atividade mitocondrial durante o período isquêmico que foi mantido durante todo o período de reoxigenação. Analisando o sobrenadante destas fatias submetidas à OGD, foi observado que os níveis de LDH, NSE e GFAP se elevaram. Com relação aos níveis de lactato, verificou-se sua diminuição durante todos os períodos. Os níveis de S100B estavam elevados somente durante o período de reoxigenação. Este aumento pode ser tanto um mecanismo de neuroproteção desta proteína frente ao insulto ou ainda uma liberação por dano celular astrocitário. Além disso, foi observado um grande aumento nos níveis de glutamato durante a isquemia e este aumento retornou no período de reoxigenação. Por fim, houve uma diminuição na captação de glutamato somente no período de reoxigenação. Todos estes resultados podem ser conseqüência de uma hiper-estimulação dos receptores glutamatérgicos devido ao insulto isquêmico. Em resumo, nosso estudo mostrou alterações em diversos parâmetros neuroquímicos específicos tanto no período isquêmico quanto na reoxigenação, mostrando que cada tipo celular, reage diferentemente frente ao insulto isquêmico na técnica de OGD in vitro. / Stroke is the third cause of mortality in industrialized countries, and the mechanisms related to this disease are polemic and unclear. Oxygen and glucose deprivation (OGD) in acute rat hippocampal slices was performed to investigate mitochondrial, neural, astroglial and metabolic neurochemical parameters at different ischemic and reoxygenation periods. Results showed the mitochondrial activity decrease due energy failure during ischemic insult and reoxygenation time. In the supernatant medium, LDH, NSE and glutamate levels were increased and the lactate decrease by the lack of energy observed in the ischemic period. Parameters such as GFAP, S100B and glutamate uptake suffered alterations only at the reoxygenation period. These results have shown the vulnerability of neurons facing ischemic insult. Meanwhile, it was also observed a delayed injure of astrocytes only at reoxygenation time, which demonstrate the difference between cell types at OGD. In summary, our finding has shown altered at specific neurochemical parameters in OGD in vitro which features the ischemic episodes and reoxygenation periods. Glutamato Fosfopiruvato hidratase Isquemia Proteína glial fibrilar ácida Proteínas S100 Glutamate uptake Glial fibrillary acid protein (GFAP) Ischemia Neuron-specific enolase (NSE) Oxygen and glucose deprivation (OGD) S100B
16	Avaliação de parâmetros neuroquímicos em fatias de hipocampo de rato submetidas à privação de oxigênio e glicose Hansel, Gisele January 2009 (has links) Mesmo a isquemia sendo a terceira causa de morte em países industrializados, os mecanismos relacionados a esta doença ainda continuam polêmicos e obscuros. Utilizou-se a técnica de privação de oxigênio e glicose (OGD) em fatias do hipocampo de rato para investigar parâmetros mitocondriais, neurais, astrogliais e metabólicos no período de isquemia e durante o período de reoxigenação. Os resultados mostraram uma diminuição na atividade mitocondrial durante o período isquêmico que foi mantido durante todo o período de reoxigenação. Analisando o sobrenadante destas fatias submetidas à OGD, foi observado que os níveis de LDH, NSE e GFAP se elevaram. Com relação aos níveis de lactato, verificou-se sua diminuição durante todos os períodos. Os níveis de S100B estavam elevados somente durante o período de reoxigenação. Este aumento pode ser tanto um mecanismo de neuroproteção desta proteína frente ao insulto ou ainda uma liberação por dano celular astrocitário. Além disso, foi observado um grande aumento nos níveis de glutamato durante a isquemia e este aumento retornou no período de reoxigenação. Por fim, houve uma diminuição na captação de glutamato somente no período de reoxigenação. Todos estes resultados podem ser conseqüência de uma hiper-estimulação dos receptores glutamatérgicos devido ao insulto isquêmico. Em resumo, nosso estudo mostrou alterações em diversos parâmetros neuroquímicos específicos tanto no período isquêmico quanto na reoxigenação, mostrando que cada tipo celular, reage diferentemente frente ao insulto isquêmico na técnica de OGD in vitro. / Stroke is the third cause of mortality in industrialized countries, and the mechanisms related to this disease are polemic and unclear. Oxygen and glucose deprivation (OGD) in acute rat hippocampal slices was performed to investigate mitochondrial, neural, astroglial and metabolic neurochemical parameters at different ischemic and reoxygenation periods. Results showed the mitochondrial activity decrease due energy failure during ischemic insult and reoxygenation time. In the supernatant medium, LDH, NSE and glutamate levels were increased and the lactate decrease by the lack of energy observed in the ischemic period. Parameters such as GFAP, S100B and glutamate uptake suffered alterations only at the reoxygenation period. These results have shown the vulnerability of neurons facing ischemic insult. Meanwhile, it was also observed a delayed injure of astrocytes only at reoxygenation time, which demonstrate the difference between cell types at OGD. In summary, our finding has shown altered at specific neurochemical parameters in OGD in vitro which features the ischemic episodes and reoxygenation periods. Glutamato Fosfopiruvato hidratase Isquemia Proteína glial fibrilar ácida Proteínas S100 Glutamate uptake Glial fibrillary acid protein (GFAP) Ischemia Neuron-specific enolase (NSE) Oxygen and glucose deprivation (OGD) S100B
17	Avaliação de parâmetros neuroquímicos em fatias de hipocampo de rato submetidas à privação de oxigênio e glicose Hansel, Gisele January 2009 (has links) Mesmo a isquemia sendo a terceira causa de morte em países industrializados, os mecanismos relacionados a esta doença ainda continuam polêmicos e obscuros. Utilizou-se a técnica de privação de oxigênio e glicose (OGD) em fatias do hipocampo de rato para investigar parâmetros mitocondriais, neurais, astrogliais e metabólicos no período de isquemia e durante o período de reoxigenação. Os resultados mostraram uma diminuição na atividade mitocondrial durante o período isquêmico que foi mantido durante todo o período de reoxigenação. Analisando o sobrenadante destas fatias submetidas à OGD, foi observado que os níveis de LDH, NSE e GFAP se elevaram. Com relação aos níveis de lactato, verificou-se sua diminuição durante todos os períodos. Os níveis de S100B estavam elevados somente durante o período de reoxigenação. Este aumento pode ser tanto um mecanismo de neuroproteção desta proteína frente ao insulto ou ainda uma liberação por dano celular astrocitário. Além disso, foi observado um grande aumento nos níveis de glutamato durante a isquemia e este aumento retornou no período de reoxigenação. Por fim, houve uma diminuição na captação de glutamato somente no período de reoxigenação. Todos estes resultados podem ser conseqüência de uma hiper-estimulação dos receptores glutamatérgicos devido ao insulto isquêmico. Em resumo, nosso estudo mostrou alterações em diversos parâmetros neuroquímicos específicos tanto no período isquêmico quanto na reoxigenação, mostrando que cada tipo celular, reage diferentemente frente ao insulto isquêmico na técnica de OGD in vitro. / Stroke is the third cause of mortality in industrialized countries, and the mechanisms related to this disease are polemic and unclear. Oxygen and glucose deprivation (OGD) in acute rat hippocampal slices was performed to investigate mitochondrial, neural, astroglial and metabolic neurochemical parameters at different ischemic and reoxygenation periods. Results showed the mitochondrial activity decrease due energy failure during ischemic insult and reoxygenation time. In the supernatant medium, LDH, NSE and glutamate levels were increased and the lactate decrease by the lack of energy observed in the ischemic period. Parameters such as GFAP, S100B and glutamate uptake suffered alterations only at the reoxygenation period. These results have shown the vulnerability of neurons facing ischemic insult. Meanwhile, it was also observed a delayed injure of astrocytes only at reoxygenation time, which demonstrate the difference between cell types at OGD. In summary, our finding has shown altered at specific neurochemical parameters in OGD in vitro which features the ischemic episodes and reoxygenation periods. Glutamato Fosfopiruvato hidratase Isquemia Proteína glial fibrilar ácida Proteínas S100 Glutamate uptake Glial fibrillary acid protein (GFAP) Ischemia Neuron-specific enolase (NSE) Oxygen and glucose deprivation (OGD) S100B
18	Influence de l'environnement périvasculaire cérébral sur la dysfonction de la barrière hémato-encéphalique au cours d'une ischémie transitoire / Influence of the brain perivascular environment on the blood-brain barrier dysfunction during a transient ischemia Kuntz, Mélanie 11 December 2013 (has links) Ces dernières années, alors qu’aucun agent neuroprotecteur n’a été efficace en clinique pour parer les dommages de l’ischémie cérébrale, le concept d’unité neurovasculaire (UNV) est apparu comme un nouveau paradigme pour l’investigation et le traitement des accidents vasculaires cérébraux ischémiques. La rupture de la barrière hémato-encéphalique (BHE) localisée au niveau des capillaires cérébraux, et ses corollaires l’œdème vasogénique et l’hémorragie intracérébrale, constituent des événements critiques de la maladie, et restreignent considérablement l’éligibilité des patients à la thrombolyse au rtPA, seul traitement de phase aiguë disponible actuellement en clinique. La complexité des intercommunications qui s’exercent au sein de l’UNV rend difficile l’appréhension de la dysfonction microvasculaire in vivo, soulignant l’importance des études in vitro pour compléter les connaissances dans ce domaine. C’est par cette approche combinée que les travaux effectués au cours de ce doctorat démontrent l’impact de la nécrose cérébrale sur la cinétique de la perte d’intégrité de la BHE au décours de la reperfusion. Cependant, même si l’endothélium microvasculaire demeure fonctionnel après un épisode ischémique dans un contexte non lésionel, il devient vulnérable à certaines molécules comme le rtPA dans une situation de thrombolyse. Ces résultats illustrent le rôle déterminant de l’environnement moléculaire périvasculaire sur la dysfonction de la BHE lors de l’ischémie cérébrale, et orientent les nouvelles stratégies thérapeutiques vers des approches ciblant la protection de l’ensemble de l’UNV. / In the recent years, while no neuroprotective agent was clinically effective in reducing brain ischemic damage, the neurovascular unit (NVU) concept emerged as a new paradigm for stroke investigation and treatment. The breakdown of the blood-brain barrier (BBB), localized in brain capillaries, with ensuing vasogenic edema and intracerebral hemorrhage, appears as a critical event of this disease, and severely restricts the eligibility of patients for rtPA thrombolysis, the only acute-phase treatment currently available. The complex intercommunications occurring within the NVU makes the microvascular dysfunction difficult to study in vivo, highlighting the importance of in vitro approaches to complete the knowledge in this field. In this context, the work done in this PhD demonstrates that brain tissue necrosis influences the kinetics of the loss of BBB integrity during reperfusion. However, even when the BBB remains functional in a non-lesional ischemic context, it becomes vulnerable to certain molecules such as rtPA in a thrombolysis situation. These results illustrate the key role of molecular perivascular environment on the BBB dysfunction during cerebral ischemia, and orientate new therapeutic strategies towards the protection of the entire NVU. Accident vasculaire cérébral Ischémie/reperfusion Barrière hémato-encéphalique (BHE) Unité neurovasculaire (UNV) Cellules endothéliales Cellules gliales Thrombolyse 570
19	Differential regulation of GABAB receptor trafficking by different modes of N-methyl-D-aspartate (NMDA) receptor signaling Kantamneni, Sriharsha, Gonzàlez-Gonzàlez, I.M., Luo, J., Cimarosti, H., Jacobs, S.C., Jaafari, N., Henley, J.M. 24 December 2013 (has links) yes / Inhibitory GABAB receptors (GABABRs) can down-regulate most excitatory synapses in the CNS by reducing postsynaptic excitability. Functional GABABRs are heterodimers of GABAB1 and GABAB2 subunits and here we show that the trafficking and surface expression of GABABRs is differentially regulated by synaptic or pathophysiological activation of NMDA receptors (NMDARs). Activation of synaptic NMDARs using a chemLTP protocol increases GABABR recycling and surface expression. In contrast, excitotoxic global activation of synaptic and extrasynaptic NMDARs by bath application of NMDA causes the loss of surface GABABRs. Intriguingly, exposing neurons to extreme metabolic stress using oxygen/glucose deprivation (OGD) increases GABAB1 but decreases GABAB2 surface expression. The increase in surface GABAB1 involves enhanced recycling and is blocked by the NMDAR antagonist AP5. The decrease in surface GABAB2 is also blocked by AP5 and by inhibiting degradation pathways. These results indicate that NMDAR activity is critical in GABABR trafficking and function and that the individual subunits can be separately controlled to regulate neuronal responsiveness and survival. / BBSRC, MRC and the European Research Council
20	Untersuchung des Zusammenhangs zwischen SUMO2/3-Konjugaten und Zellstress in einem In-vitro-Modell / Researching the connection between SUMO2/3-conjugates and cell-stress in an in-vitro-modell Eh, Julius Marcus Klaus 31 December 1100 (has links) No description available. 610 SUMO2/3 Neurone Hypoxie OGD Reoxygenierung hippocampale Neuronen Kultur kortikale Neuronen Kultur Zell-Stress small ubiquitin-like modifiers Western-Blot SUMO2/3 neuron hypoxia OGD reoxygenation cell-stress small ubiquitin-like modifiers cortical neuron culture hippocampal neuron culture Western-Blot Medizin (PPN619874732)

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