Global ETD Search

111	Rôles du récepteur aux hydrocarbures aromatiques (AhR) dans la structure de la myéline du système nerveux central de la souris / Roles of the aryl hydrocarbon receptor (AhR) in the myelin structure of the murine central nervous system Juricek, Ludmila 23 November 2015 (has links) Le récepteur aux hydrocarbures aromatiques (AhR) est un facteur de transcription activé par de nombreux xénobiotiques (molécules étrangères à l’organisme) qui régule l’expression d’enzymes et transporteurs permettant le métabolisme et l’élimination de ces ligands. Cette protéine exprimée dans toutes les cellules chez les vertébrés, joue un rôle majeur dans la détoxication et la protection des organismes vis à vis des molécules toxiques. Des orthologues de celle-ci ont été identifiés chez les invertébrés mais ne semblent pas jouer le même rôle; ils sont exprimés principalement dans des neurones et ne sont pas activés par des polluants. L’absence du AhR chez ces organismes entraîne au niveau cellulaire, des défauts de morphologie dendritique et sur le plan comportemental, des anomalies dans le comportement de nutrition. Malgré ces découvertes, peu de recherches ont été entreprises sur les conséquences d’une invalidation du AhR sur le fonctionnement du système nerveux central chez les vertébrés. Au cours de ma thèse, j’ai étudié ces conséquences au niveau moléculaire, cellulaire et comportemental: les souris AhR KO développent un nystagmus pendulaire horizontal dont l’origine est en partie liée à des défauts structuraux de la gaine de myéline. Au niveau moléculaire, nous avons mis en évidence un changement de la composition lipidique, de l’expression des gènes de la myéline et de l’inflammation, défauts qui sont retrouvés en partie chez des souris dont le AhR a été invalidé spécifiquement dans l’oligodendrocyte, la cellule responsable de la formation de la gaine de myéline. J’ai donc réalisé des études en parallèle sur la lignée murine d’oligodendrocyte, 158N, et montré que l’invalidation du AhR dans cette lignée ainsi que in vivo, modifiait l’expression du gène MAG (Myelin Associated Glycoprotein). Compte tenu du rôle du AhR en tant que récepteur de polluants, nous avons également exposé ou traité nos modèles avec de la TCDD (dioxine de Seveso) et montré que celle-ci modifiait également l’expression du gène MAG. Mes travaux démontrent donc que le AhR joue un rôle au niveau oligodendrocytaire dans la formation de la gaine de myéline. Son rôle connu en tant que récepteur de polluants laisse supposer que certaines contaminations environnementales pourraient jouer un rôle dans l’incidence de pathologies au niveau du système nerveux central, ce qui soulève de nombreuses questions en terme de santé publique. / The aryl hydrocarbon receptor (AhR) is a transcription factor activated by many xenobiotics (foreign molecules) that regulates the expression of enzymes and transporters which allow the metabolism and elimination of these ligands. This protein expressed in all cells in vertebrates, plays a major role in detoxication and protection of the organisms against toxic molecules. Some orthologs have been identified in invertebrates but do not seem to play the same role; they are expressed mainly in neurons and are not activated by pollutants. The absence of the AhR in these organisms causes at the cellular level, defects of the dendritic morphology and behaviourally, abnormalities in the feeding behavior. Despite these findings, little research has been conducted on the consequences of the AhR invalidation in the central nervous system of vertebrates. During my PhD, I studied these consequences at the molecular, cellular and behavioral : the AhR knockout mice develop a horizontal pendular nystagmus whose origin is partly related to structural defects in the myelin sheath. At the molecular level, we have shown modifications in the lipid composition, myelin and inflammation gene expression, defects that are found partly in mice whose AhR was invalidated specifically in the oligodendrocytes, the cells involved in myelin sheath formation. I therefore made parallel studies on the murine oligodendrocyte lineage, 158N, and showed that the invalidation of the AhR in this cell line and in vivo, altered MAG (Myelin Associated Glycoprotein) gene expression. Given the role of the AhR as a receptor of pollutants, we have also exposed or treated our models with TCDD (dioxin of Seveso) and showed that it also changed the expression of MAG gene. My works show that the AhR is involved in oligodendrocyte level in the formation of the myelin sheath. As the AhR is also a receptor of pollutants, some environmental contaminants may play a role in the incidence of diseases in the central nervous system, which raises many issues in terms of public health. AhR Myéline Nerf optique MAG Souris Aryl hydrocarbon receptor Myelin Optic nerve Myelin associated-glycoprotein Mice 615.951 1
112	Molecular mechanisms of myelin membrane biogenesis / Molekulare Mechanismen der Biogenese der Myelin-Membran Trajkovic, Katarina 05 July 2007 (has links) No description available. 570 Biowissenschaften, Biologie W Mathematics and Natural Science Myelin Endozytose Endosom Membrantransport Rho myelin endocytosis endosome membrane trafficking Rho 42
113	Role of myelin-associated NAD+- dependent deacetylase Sirtuin 2 in modifying axonal degeneration Kasapoglu, Burcu 01 February 2012 (has links) No description available. 570 150 myelin axo-glia interactions Sirtuins SIRT2 acetylation Biologie (PPN619462639)
114	Reversible regulatory T cell-mediated suppression of myelin basic protein-specific T cells / Cabbage, Sarah E. January 2006 (has links) Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 92-107).
115	Association between Immunological Reactivity with Tetrabromobisphenol-A and Autoimmune Target Sites of the Nervous System Kharrazian, Datis 01 January 2018 (has links) Tetrabromobisphenol-A (TBBPA) is the most widely used flame retardant. Flame retardants are sprayed on furniture, mattress beds, children’s pajamas, car seats, upholstery, carpets, and rugs in the United States. Chemical immune reactivity may play a role in the epidemic of autoimmune disease. The goal of this research is to investigate whether any correlation exists between immunological reactivity to TBBPA, a key chemical used in most flame retardants, and neurological autoimmune target sites that are associated with neurological autoimmune diseases with a diverse and specific list of antibodies that include myelin basic protein, myelin-associated glycoprotein, alpha-synuclein, aquaporin receptors, and S100B antibodies with human serum samples. The outcomes of this research can be used to support the development of safety regulations and for identifying potential health concerns for current mandatory flame-retardant legislation. Additionally, this research may support the decisions made in respect of those suffering from neurological autoimmune diseases, as to whether removing flame retardant chemicals is a factor for consideration. Health and environmental sciences Alpha-synuclein Autoimmunity Myelin basic protein Myelin oligodenrocyte protein S100B Tetrabromobisphenol-A Medicine and Health Sciences
116	Charakterisierung der subzellulären Lokalisation von Myelinproteinen in der Shiverer-Maus. / Characterization of the subcellular localization of myelin-proteins in the Shiverer-mouse. Winter, Christine Elisabeth 02 June 2010 (has links) No description available. 610 Medizin, Gesundheit Medicine Myelin Myelinproteine Oligodendrozyt Shiverer-Maus Dysmyelinisierung Multiple Sklerose myelin myelin-proteins oligodendrocyte Shiverer-mouse dysmyelination multiple sclerosis 44.90 Neurologie MED 280: Biologie
117	Rôle des voies Wnt dans la régulation des gènes de la myéline et le cytosquelette des cellules de Schwann / Wnt pathways in myelin genes and cytoskeleton regulation of Schwann cells Belle, Martin 14 December 2011 (has links) Les cellules de Schwann sont responsables de la myélinisation du système nerveuxpériphérique. C’est un phénomène complexe et finement régulé. En effet, des altérationsde l’expression touchant les protéines de la myéline périphérique (P0 et PMP22)peuvent provoquer des pathologies comme la Charcot‐Marie‐Tooth. Par ailleurs, lescellules de Schwann subissent d’importantes modifications de leur cytosquelette aucours du processus de myélinisation.Nous avons identifié la voie Wnt/β‐caténine comme directement impliquées dansla régulation de l’expression des gènes de la myéline P0 et PMP22 à la fois in vitro maiségalement in vivo. De plus, nous avons initié la démonstration de l’implication de la voieWnt non canonique au cours de ce même processus. Par ailleurs, nous avons montré queles ligands Wnts aussi bien canoniques que non canoniques pouvaient provoquerl’allongement des extensions des cellules de Schwann. Le chlorure de lithium est uninhibiteur de la GSK3β, mimant l’activation de la voie Wnt/β‐caténine. Il provoque unimportant allongement des cellules de Schwann accompagné de profonds remaniementsde l’architecture interne. Par la suite nous nous sommes intéressés aux effets d’unelésion sur la remyélinisation. La voie Wnt/β‐caténine est réactivée par une lésion in vitrotandis que le lithium accélère la récupération fonctionnelle du battement des vibrissesde souris après pincement du nerf facial, améliore les structures de la gaine de myélineet induit l’expression des gènes de la myéline in vivo.ConclusionNotre travail a mis en évidence le rôle majeur des voies Wnt canoniques et noncanoniques dans la régulation de l’expression de gènes de la myéline et dans lecytosquelette des cellules de Schwann. / The myelination is performed by Schwann cells in the peripheral nervous system.Myelination involves the extension of large sheaths of membranes and their wrapping around axons, accompanied by the coordinated synthesis of a variety of myelin components, including myelin‐specific proteins (MPZ and PMP22).We identified the Wnt/β‐caténin pathway as an essential and direct driver of myelin gene expression and myelinogenesis. Moreover, we identified non canonical Wnt protein as regulators of myelin genes expression MPZ and PMP22. Canonical and non canonical Wnt protein elongate the Schwann cells in vitro by microtubules stabilizationmechanisms.We used lithium chloride, an inhibitor of GSK3β to test either effects on Schwann cells cytoskeleton and recovery after nerve crash in vivo. Lithium chloride provokes Schwann cells elongation and biochemicals modifications by enhencing cholesterol as we show by IR spectroscopy. Lithium chloride accelerates the recovery of the whisker mouvements after nerve crash, provokes the remyelination of sciatic neve after crush and stimulates myelin genes expression.ConclusionWe have identified Wnt pathways as direct driver of myelin genes expression and important for cytoskeleton stabolization. Our findings, open new perspectivesin the treatment of nerves demyelination by administration of GSK3βinhibitors like lithium. Voies Wnt Myéline Gènes de la myéline périphérique Cellules de Schwann Chlorure de lithium Cytosquelette Wnt pathways Myelin Peripheral myelin genes Schwann cells Lithium chloride Cytoskeleton
118	"Eine neue Rolle für Myelin-assoziierte Inhibitoren für die Mobilität von Mikroglia" / "A novel role for myelin-associated inhibitors in modulating microglial motility" Orfaniotou, Foteini 08 January 2009 (has links) No description available. 570 Biowissenschaften Biologie microglia myelin inhibitors Nogo receptor 1 process outgrowth Mikroglia Myelin Inhibitoren Nogo Rezeptor 1 Fortsatzwachstum 42 WA
119	The Role of Phosphoinositides in the Interaction of Myelin Basic Protein with the Oligodendroglial Cell Membrane / Die Rolle von Phosphoinositolen für die Interaction von Myelin Basisches Protein mit der Oliglodendrozyten-Zellmembran Nawaz, Schanila 09 January 2009 (has links) No description available. 570 Biowissenschaften Biologie Myelin Lipide Signalwege Myelin Lipids signalling 42.00 WHC 100: Zellmembranen Zelloberfläche Zellwand intrazelluläre Membranen {Cytologie}
120	Diffusion Tensor Imaging of Myelin Water Avram, Alexandru Vlad January 2011 (has links) <p>In recent years, the emergence of diffusion tensor imaging (DTI) has provided a unique means via water diffusional characteristics to investigate the white matter integrity in the human brain, and its impact on neuronal functions. However, since the characterization of white matter integrity using DTI often lacks tissue specificity, most research studies report changes in anisotropy that are not explicitly correlated with particular cellular origins. To improve the utility of DTI in translational neuroimaging, it is critical to develop DTI acquisition techniques that are quantitative and tissue specific.</p><p>There are, nevertheless, existing methods for tissue specificity. For example, myelin water images can be generated using multiple echo time (TE) or magnetization transfer techniques. These techniques can detect changes in the concentration of myelin associated markers, but not in their spatial organization. Most white matter pathologies however start with early microstructural changes in the myelin sheaths during which the tissue contents remain similar and are thus not differentiable on a conventional MR image. Thus, the ability to construct a diffusion tensor that is myelin specific can have an immediate impact on our better understanding myelin physiology and pathophysiology during brain development. </p><p>Unfortunately, the myelin water signal decays rapidly because of its short transverse relaxation time constant (T2 < 50 ms), especially in DTI experiments where the echo time (TE) can be as large as 100ms. Even in special cases where the TE is shorter, the lack of myelin selectivity in conventional DTI techniques makes assessment of myelin microstructure extremely challenging. Thus we need to develop a DTI methodology that will greatly shorten the TE and allow myelin selectivity.</p><p>To address these challenges we have developed innovative DTI acquisition methodologies that can specifically assess myelin microstructural changes in white matter. To preserve more signal from myelin water we used a stimulated echo DTI implementation. In our initial approach we integrated this sequence with a magnetization transfer preparation to achieve additional differentiating sensitization to myelin water and derive a myelin water weighted (MWW) diffusion tensor. Our results indicate that, compared to the conventional DTI, myelin water diffuses along the axis of the fiber, but has the same has larger fractional anisotropy (FA) due to significantly smaller radial diffusivity. The limited specificity of MT and high radio frequency power deposition of MT-DTI restrict its applicability in clinical studies. </p><p>To obtain increased myelin specificity we implemented a robust stimulated echo DTI sequence with segmented spiral-out readout trajectory for achieving minimal TE on clinical MRI scanners. To ensure high spatial accuracy throughout the DTI scan we further develop a methodology for inherently and dynamically correcting both motion induced phase errors and off-resonance effects due to magnetic field inhomogeneities (including eddy currents) in the reconstructed image. We the used this technique to conduct an unprecedented experiment in which we collected DTI images at multiple echo times (as short as 18ms) and characterized the dependence of anisotropy on the T2 components including myelin water. The results confirmed the anisotropy characteristics of myelin water found with our initial previous approach. </p><p>Building on this new information, we designed a MWW-DTI method based on the simultaneous acquisition of DTI images at two different echo times within clinical practical durations. It is hoped that this new DTI technique sensitized myelin microanatomy will find wide applications in monitoring healthy brain development in pediatric populations, as many developmental brain disorders start with microstructural changes in white matter.</p> / Dissertation Biomedical Engineering Medical Imaging and Radiology Neurosciences diffusion tensor imaging magnetization transfer multi-TE imaging myelin microstructure myelin water white matter disease

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