Global ETD Search

351	Imagerie moléculaire de la neuroinflammation dans la maladie de Parkinson : étude préclinique dans un modèle animal de rat Maia, Serge 16 November 2012 (has links) Bien que les mécanismes moléculaires précis à l’origine de la neurodégénérescence dopaminergique ne soient pas encore totalement connus, un ensemble de preuves épidémiologiques, cliniques et expérimentales indiquent que la neuroinflammation peut avoir un rôle important dans la pathogenèse de la MP. L’étude des liens spatio-temporels entre la neuroinflammation et la neurodégénérescence au cours de la MP pourrait améliorer la compréhension du mécanisme physiopathologique et aussi l'accessibilité à un diagnostic précoce et/ou à de nouvelles approches thérapeutiques anti-inflammatoires. Le développement actuel des méthodes non invasives d'imagerie moléculaire permettant la surveillance directe du processus de neuroinflammation devrait être utile à cet effet. La cible moléculaire de choix dans ce domaine est la protéine de 18 kDa translocateur (TSPO), biomarqueur sensible associée à la neuroinflammation, qui est surexprimé dans les microglies activées. Dans le travail présenté ici nous avons réalisé l'évaluation longitudinale des deux mécanismes physiopathologiques en parallèle avec les modifications de la fonction dopaminergique à plusieurs points au cours du temps après lésion à la 6-OHDA chez le rat, modèle qui imite un stade précoce de la MP. Après l'administration unilatérale, intra-striatale de la 6-OHDA, nous avons quantifié l'évolution temporelle de la TSPO, de l’immunoréactivité TH et du DAT dans le striatum et la SNC de 3 à 56 jours post-lésion (jpl). L’augmentation de la liaison des ligands de la TSPO utilisés, c-à-d [3H]-PK11195 et [125I]-CLINDE, a été observée dans le striatum lésé à 3, 7 et 14 jpl, suivie d'un retour progressif à un niveau basal à 56 jpl. Le profil de liaison dans la SNC a montré une augmentation progressive de la fixation qui débute à 3 jpl, avec un pic à 14 jpl, et diminue progressivement jusqu'à ce que 56 jpl. Dans ce modèle de rongeur de la MP, les processus neuroinflammatoire et neurodégénératif surviennent de façon concomitante. La présence transitoire de l'activation microgliale pourrait être impliquée dans l’apparition et l'installation durable de la perte neuronale dopaminergique. Cette étude confirme donc le lien entre la neuroinflammation et de la neurodégénérescence et met aussi l'accent sur l'intérêt du CLINDE comme traceur potentiel de la neuroinflammation in-vivo en fournissant des informations précieuses pour le diagnostic précoce et le suivi longitudinal de la progression de la maladie, avec des applications potentielles chez l'homme. En effet, la détection précoce de la neuroinflammation, de façon antérieure à une perte neuronale cliniquement significative, pourrait devenir un enjeu majeur dans la prise en charge pré-symptomatique de la MP. Dans ce sens, nous mettons en évidence l’existence d'une fenêtre thérapeutique, survenant juste après la lésion, qui peut être proposé pour l'introduction de traitements anti-inflammatoires qui viseraient à ralentir le processus neurodégénératif. La poursuite de l’exploration des relations entre la neuroinflammation et la neurodégénéréscence in-vivo dans le même modèle animal avec la méthode d’imagerie micro-TEP, transposable à l’homme, en utilisant en parallèle le [18F]-DPA714 pour la TSPO et le [18F]-LBT999 pour le DAT est en cours. / Although the precise molecular mechanisms causing the dopaminergic neurodegeneration are still not totally understood, a body of epidemiological, clinical and experimental evidence indicates that neuroinflammation may have an important role in the pathogenesis of PD. Study of spatio-temporal links between neuroinflammation and neurodegeneration during the course of PD would improve understanding of the physiopathological mechanism and also accessibility to early diagnosis and/or new antiinflammatory therapeutic approaches. The current development of non-invasive molecular imaging methods allowing direct monitoring of the neuroinflammation process should be valuable for this purpose. The molecular target of choice in this field is the 18 kDa translocator protein (TSPO), a sensitive biomarker associated with neuroinflammation, which is over-expressed in activated microglia. In the study presented here we achieved the longitudinal evaluation of both physiopayhological mechanisms in parallel with the modifications of dopaminergic function at several time-points after 6-OHDA lesion in the rat that mimics an early stage of PD. After unilateral intra-striatal 6-OHDA administration, we quantified the temporal evolution of the TSPO, TH immunoreactivity and DAT in the striatum and the SNc from 3 to 56 days post-lesion (dpl). Increased binding of TSPO ligands used, i.e. [3H]PK11195 and [125I]CLINDE, was observed in the lesioned striatum at 3, 7 and 14 dpl, followed by a progressive return to the basal level at 56 dpl. The binding profile in the SNc showed progressive binding beginning at 3 dpl, peaking at 14 dpl, and progressively decreasing until 56 dpl. In this rodent model of PD, the neuroinflammatory and neurodegenerative processes occurred concomitantly. The transitory occurrence of microglial activation could be involved in the advent and the lasting installation of dopaminergic neuron loss. This study supports the link between neuroinflammation and neurodegeneration and emphasizes the interest of CLINDE as potent in vivo tracer of neuroinflammation by providing valuable information for early diagnosis and longitudinal follow-up of disease progression, with potential applications to human patients. Indeed, early detection of neuroinflammation, prior to a clinically significant loss of neurons, could become a major issue in the management of pre-symptomatic PD. To support this idea, we demonstrate the existence of a therapeutic window, occurring just after the lesion, which may be proposed for the introduction of anti-inflammatory treatments that aimed to slow the neurodegenerative process. Further exploration of the relationship between neuroinflammation and neurodegeneration in vivo in the same animal model with the method of micro-PET imaging, transposable to humans, using in parallel the [18F]-DPA714 for TSPO and [18F]-LBT999 for DAT is pending. Microglie TSPO (18 kDa) 6-OHDA Maladie de Parkinson TEMP TEP Microglia TSPO (18 kDa) 6-OHDA Parkinson’s disease SPECT PET
352	Mecanismes moleculars implicats en la secreció de pèptids en cèl•lules glials del sistema nerviós central Paco Mercader, Sonia 23 November 2011 (has links) En els últims anys, diversos treballs han demostrat que els astròcits participen activament en el desenvolupament i la plasticitat del sistema nerviós central, així com en la modulació de la neurotransmissió. Característicament, la majoria de les accions descrites dels astròcits sobre la fisiologia i la patologia neuronal són mitjançades per secreció vesicular. En el aquest treball s’han identificat les molècules implicades en l’exocitosi de cèl•lules astroglials. Malgrat que alguns components són comuns amb les neurones, altres com sintaxina 4, VAMP3 i SNAP23 s’expressen de forma específica en les cèl•lules astroglials. Tractaments activadors o de maduració diferencialment regulen l’expressió de diferents isoformes de proteïnes exocítiques en cèl•lules glials in vitro. Així, l’activació amb citocines proinflamatòries augmenta l’expressió d’algunes SNAREs i els seus reguladors en glia, com sintaxina4 i munc18b. La correlació entre els nivells d’expressió d’aquestes proteïnes exocítiques i l’augment de la secreció de mediadors d’activació i inflamació suggereix un important paper d’aquestes molècules en la secreció de cèl•lules activades. Amb l’objectiu d’estudiar la secreció regulada per calci en astròcits madurs s’ha obtingut un fenotip madur glial in vitro mitjançant l’activació de la via del AMPc. L’anàlisi global amb "gene set enrichment analysis" del transcriptoma astrocitari ha demostrat que l’increment en els nivells intracel•lulars d’AMPc reprimeix la immaduresa i activació dels astròcits i promou la seva maduració. Aquesta maduració dependent de la via del AMPc augmenta l’expressió de proteïnes exocítiques, com per exemple VAMP2, així com la via de secreció regulada per calci dels pèptids ANP i SgII. Finalment, mitjançant assajos de pèrdua de funció, es demostra un paper d’aquestes proteïnes en la secreció de pèptids glials. Aquests resultats suggereixen que diferents molècules d’exocitosi mitjancen diferents processos de secreció glials. Per altra banda, en aquesta tesi s’ha identificat un nou component de la via de secreció astroglial, tant in vitro com in vivo, la SgIII. En cèl•lules neuroendocrines SgIII actua com un receptor de direccionament a grànuls secretors. En cèl•lules astroglials SgIII presenta una forma molecular i una dinàmica de secreció diferencial a cèl•lules neuroendocrines. A més, hem demostrat una notable sobreexpressió d’aquesta proteïna en astròcits reactius en lesions traumàtiques, la qual cosa suggereix una participació de SgIII en els mecanismes de protecció o dany cerebral en lesions del sistema nerviós central. / In recent years, several studies have demonstrated that astrocytes influences neuronal development, function and plasticity through vesicular transmitter release. However, secretory pathways and the involved molecular mechanisms in astroglial cells are poorly known. In this study, we showed that a variety of SNARE and Munc18 isoforms were expressed by cultured astrocytes, with syntaxin-4, Munc18c, SNAP-23 and VAMP-3 being the most abundant variants. Exocytotic protein expression was differentially regulated by activating and differentiating agents. Specifically, proteins controlling Ca2+-dependent secretion in neuroendocrine cells were up-regulated after long-term 8Br-cAMP administration in astrocytes, but not by proinflammatory cytokines. We also analyzed the global transcriptome of cultured astroglial cells incubated with activators of cAMP pathways. cAMP analogs strongly upregulated genes involved in typical functions of mature astrocytes, whereas they downregulated a considerable number of proliferating and immaturity-related transcripts. Gene Set Enrichment Analysis and evaluation in situ of gene expression in astrocytes in different states showed that cAMP signaling conferred a mature and in vivo–like transcriptional profile to cultured astrocytes. Moreover, 8Br-cAMP treatment greatly increased the cellular content of exocytotic proteins such as VAMP-2 and stimulated Ca2+-dependent secretion of secretogranin-2 and ANP. Regulation of both exocytotic protein expression and Ca2+-dependent peptide secretion in astrocytes by differentiating and activating agents suggested that glial secretory pathways were adjusted in different physiological states. In this thesis, we showed the expression, transcriptional regulation, trafficking and release of the secretory pathway component SgIII in astroglial cells. In endocrine cells, SgIII is a key sorting receptor for peptide hormones while astrocytes produced and released a non-processed form. Moreover, SgIII expression was specifically upregulated in reactive astrocytes after perforating brain injury. These results showed that SgIII is a reliable component of the astrocyte secretory pathway and suggest important roles for glial SgIII in the glia–neuron communication. Escorça cerebral Corteza cerebral Cerebral cortex Exocitosi Exocitosis Astròcits Astrocitos Astrocytes Exocytose Micròglia Microglia Ciències Experimentals i Matemàtiques 576
353	Evaluation of the cuprizone model / Einschätzung des Cuprizone-Modells Awn, Najmy 25 March 2010 (has links) No description available. 610 Medizin, Gesundheit M Medicine Multiple Sklerose Demyelinisierung Remyelinisierung Oligodendrozyte mikroglia Mikrophage Multiple sclerosis demyelination remyelination oligodendrocyte microglia macrophage 44
354	Plaque deposition and microglia response under the influence of hypoxia in a murine model of Alzheimer\'s disease Viehweger, Adrian 03 January 2014 (has links) (PDF) Clinical findings have linked multiple risk factors and associated pathologies to Alzheimer\'s disease (AD). Amongst them are vascular risk factors such as hypertension and pathologies such as stroke. Coexistence of AD and these associated pathologies worsenes dementia, the clinical hallmark of the disease, as compared to pure AD. One general common denominator of these associated pathologies is the presence of hypoxic tissue conditions. It was asked the question, whether there exists a mutual, causal interaction between hypoxia and AD pathology, that could explain the clinical observations. Alternatively, the worsened clinical state of multiple brain pathologies could \"simply\" be the consequence of multimorbidity, i.e. accumulated disease load, without any causal interaction between the constituents. To approach this question whether hypoxia influences AD progression, use was made of a murine animal model of AD (transgenic mice: APPswe, PSEN1dE). Animals of two ages (8 and 14 months, \"young\" and \"old\" respectively) and two genotypes (transgenic and wild- type) were either treated under hypoxia or normoxia, corresponding to 8% and 21% oxygen, for 20 consecutive days. The resulting changes in the brain were assessed with a variety of techniques, namely by histology, ELISA, dot and Western blotting. Additional experiments in primary cell cultures were performed. Animals exposed to hypoxia showed an increased hematocrit (HCT), weight loss, reactive angiogenesis, but no infarctions. This illustrates that our hypoxic treatment put significant stress on the animals, without causing major pathologies. A large number of variables exists that could potentially be measured to assess the effect of hypoxia on AD. The focus was put on three of them: First, there is the Abeta1-42- protein, known to be the Abeta- isoform associated with the most detrimental disease progression. In AD, the self-combinatory Amyloid- beta peptide (Abeta) accumulates in the brain in so- called plaques, which is a main histologic finding of the disease. Its quantity was determined through histology and ELISA. Secondly, it was attempted to estimate the structural quality of the Abeta- protein by assessing the amount of A!- oligomers present. Abeta- protein does self- accumulate in various grades of complexity, i.e. as monomer, oligomer or fibril. Since oligomers are known to be the most neurotoxic \"species\" of the Abeta- protein, it was hypothesized that under hypoxic treatment their quantity could increase. And third, the organism\'s response to the Abeta- protein stimulus was investigated. Microglial cells have been described as the first cells to encounter the Abeta- protein \"threat\" in the shape of plaques, i.e. Abeta- protein aggregates. They then try to encapsulate and subsequently degrade them. Therefore, the attention was put on this cellular population. It was asked whether hypoxia could change the Abeta- protein quantity in the brain. This was assessed in two ways: First histologically, by staining for Abeta- protein depositions and quantifying them. Second, an ELISA was performed. Our findings state that hypoxic treatment does not alter the Abeta1-42 protein load in the brain, neither in young nor old animals, as assessed by histology and by total ELISA quantification of Abeta1-42 protein. Since hypoxia did not alter the quantity of the Abeta- protein, it was asked whether it influenced it qualitatively? If hypoxia increased oligomer formation, this change in the spectrum of the Abeta- species could, without any change in total Abeta- protein load, lead to increased neurotoxicity in animals under hypoxia. Initial experiments showed that oligomer formation in the brain seems to increase. However, this was not statistically significant and future experiments are necessary to evaluate this hypothesis further. It was then asked, whether hypoxia alters the cellular response to the protein. The total number of microglia in the hippocampal dentate gyrus, our structure of interest for practical purposes, and, it can be argued, by extension the brain, changes dynamically with various factors. First, transgenic animals present an increase in microglia. Second, microglia increase with age. Third, microglia decrease under hypoxia, but only do so significantly in old animals. Next, a parameter called \"plaque occupancy\" was coined to assess the microglia function to confront Abeta- plaques. Plaque occupancy is defined as the number of microglia in spatial proximity to one square millimeter of Abeta- plaque. This means, that microglia restricting one plaque are counted, and then normalized to this plaque\'s area. It was hypothesized that hypoxia would decrease plaque occupancy. Indeed, plaque occupancy roughly halved under hypoxia. Summarizing, our results demonstrate that long- term exposure to hypoxia significantly reduces the number of microglia. The reduced number results in significantly reduced plaque occupancy and compromizes the function of microglia to confront Abeta- plaques. The Abeta1-42 load, however, is not affected. On the other hand, Abeta shows an increased trend towards oligomer formation. A variety of possible explanations to these phenomena have been presented, that in our opinion deserve further investigation. Alzheimersche Erkrankung Neurodegeneration APP/PS1 Mausmodell Mikroglia Hypoxie Alzheimer\'s disease neurodegeneration APP/PS1 murine model microglia hypoxia ddc:600
355	Activation of murine microglial cells by muramyl dipeptide alone and in combination with Toll-like receptor agonists Adam, Nina 01 October 2014 (has links) No description available. 610 TLR Mikroglia Meningitis MDP E.coli Nod2 Nod2 TLR Microglia MDP E.coli K1 Medizin (PPN619874732)
356	Neuroinflammation in Alzheimers disease : characterization and modification of the response of transgenic mice to intrahippocampal lipopolysaccharide administration / Herber, Donna Lorraine. January 2004 (has links) Thesis (Ph.D.)--University of South Florida, 2004. / Includes vita. Includes bibliographical references (leaves 144-164).
357	Neuroinflammation and Fragile X syndrome regulation by glycogen synthase kinase-3 / Yuskaitis, Christopher Joseph. January 2009 (has links) (PDF) Thesis (Ph.D.)--University of Alabama at Birmingham, 2009. / Title from PDF title page (viewed on Sept. 10, 2009). Includes bibliographical references.
358	Implication fonctionnelle du récepteur P2X7 dans les mécanismes neuroinflammatoires associés à la dépression : étude préclinique / Functional implication of PLX7 receptors in neuroinflammatory phenomena associates with depression : a preclinical study Farooq, Rai Khalid 17 December 2012 (has links) Le projet de cette thèse s'est attaché à caractériser le rôle de l'IL-1 beta et les récepteurs P2X7 dans la dépression. Les résultats suggèrent que chez les souris stressés et les perturbation comportementaux, l'activation microgliales et endocriniennes sont reversées par l'antagoniste des P2X7Rs. Ces résultats mettent en évidence que l'antagoniste des récepteurs P2X7 a des effets comportementaux et neuroendocriniens. / Research work of this thesis was aimed to characterize role of IL-1 beta and P2X7 receptors in depressive illness. Results suggest that i stressed mice the behavioral and neurobiochemical changes are reversed by use of P2X7R antagonist. It is an evidence of antidepressant of these compounds. Neuroinflammation Axe HPA Neuroinflammation Major depression UCMS P2X7 receptor Neurogenesis HPA-axis Antidepressant resistance IL-1β Microglia
359	Produkce cytokinů u myší infikovaných ptačí schistosomou Trichobilharzia regenti / Production of cytokines in mice infected with bird schistosome Trichobilharzia regenti Majer, Martin January 2018 (has links) The neuropathogenic trematode Trichobilharzia regenti (Schistosomatidae) infects the central nervous system of birds and mammals. During its migration through the spinal cord, the parasite causes tissue damage and triggers inflammation which is likely responsible for the elimination of the parasite. In this thesis, the proinflammatory cytokines IL-1β and IL-17 were detected by immunohistochemistry in the affected spinal cord of C57BL/6J mice during the infection. Additionally, IL-4 and IL-6, participating in the regulation of the inflammation and tissue repair, respectively, were noticed. Astrocytes, microglia and other, yet unidentified cells, produced these cytokines. Furthermore, splenic T-lymphocytes were phenotyped by flow cytometry to characterize peripheral immune response. At the peak of nervous tissue inflammation, mixed (Th1/Th2) cellular immune response was observed. Taken together, this thesis extended the knowledge of cytokine immune response of mice infected with T. regenti and also confirmed that inflammation in the nervous tissue influences the polarization of peripheral immune response. Key words: cytokines, spleen, CNS, microglia, astrocytes, Trichobilharzia regenti, immunohistochemistry, flow cytometry
360	Mikroglia-Aktivierung durch Bestandteile von <i>Borrelia burgdorferi sensu lato</i> / Microglial activation by proteins of <i>Borrelia burgdorferi sensu lato</i> Töpfer, Martha 22 April 2015 (has links) No description available. 610 Borrelia afzelii Borrelia burgdorferi Borrelia spielmanii p41 OspC Microglia Neuroborreliosis

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