Global ETD Search

131	Subplate populations in normal and pathological cortical development Oeschger, Franziska M. January 2011 (has links) The subplate layer of the cerebral cortex is comprised of a heterogeneous population of cells and contains some of the earliest-generated neurons. Subplate plays a fundamental role in cortical development. In the embryonic brain, subplate cells contribute to the guidance and areal targeting of corticofugal and thalamic axons. At later stages, these cells are involved in the maturation and plasticity of the cortical circuitry and the establishment of functional modules. In my thesis, I aimed to further characterize the embryonic murine subplate by establishing a gene expression profile of this population at embryonic day 15.5 (E15.5) using laser capture microdissection combined with microarrays. I found over 250 transcripts with presumed higher expression in the subplate at E15.5. Using quantitative RT-PCR, in situ hybridization and immunohistochemistry, I have confirmed specific expression in the E15.5 subplate for 13 selected genes which have not been previously associated with this compartment. In the reeler mutant, the expression pattern of a majority of these genes was shifted in accordance with the altered position of subplate cells. These genes belong to several functional groups and likely contribute to the maturation and electrophysiological properties of subplate cells and to axonal growth and guidance. The roles of two selected genes - cadherin 10 (Cdh10) and Unc5 homologue c (Unc5c) - were explored in more detail. Preliminary results suggest an involvement of Cdh10 in subplate layer organization while Unc5c could mediate the waiting period of subplate corticothalamic axons in the internal capsule. Finally, I compared the expression of a selection of subplate-specific genes (subplate markers) between mouse and rat and found some surprising species differences. Confirmed subplate markers were used to monitor subplate injury in a rat model of preterm hypoxiaischemia and it appeared that deep cortical layers including subplate showed an increased vulnerability over upper layers. Further characterization of subplate-specific genes will allow us to broaden our understanding of molecular mechanisms underlying subplate properties and functions in normal and pathological development. 612.8
132	Substance P, récepteurs NK1 et neurones à sérotonine : relations anatomiques et fonctionnelles dans le noyau raphe dorsalis Baptiste, Lacoste 06 1900 (has links) Nous avons étudié les relations anatomiques entre les systèmes de neurotransmission à substance P (SP) et à sérotonine (5-hydroxytryptamine, 5-HT) dans le noyau du raphé dorsal (NRD) du rongeur, afin de mieux comprendre les interactions entre ces systèmes durant la régulation de l’humeur. Le NRD reçoit une innervation SP provenant de l’habenula, et le blocage pharmacologique des récepteurs neurokinine-1 (rNK1) de la SP aurait des effets antidépresseurs. Chez le rongeur, le traitement par les antagonistes des rNK1 s’accompagne d’une désensibilisation des autorécepteurs 5-HT1A de la 5-HT et d’une hausse de l’activité des neurones 5-HT dans le NRD, suggérant des interactions locales entre ces deux systèmes. Dans un premier temps, nous avons démontré par doubles marquages immunocytochimiques en microscopies optique, confocale et électronique, la présence du rNK1 dans une sous-population de neurones 5-HT du NRD caudal. Lors de l’analyse en microscopie électronique, nous avons pu constater que les rNK1 étaient principalement cytoplasmiques dans les neurones 5-HT et membranaires sur les neurones non 5-HT du noyau. Grâce à d’autres doubles marquages, nous avons aussi pu identifier les neurones non-5-HT porteurs de rNK1 comme étant GABAergiques. Nous avons ensuite combiné l’immunomarquage de la SP avec celui du rNK1, dans le but d’examiner les relations entre les terminaisons (varicosités ) axonales SP et les neurones 5-HT (pourvus de rNK1 cytoplasmiques du NRD caudal. En simple marquage de la SP, nous avons pu estimer à 41% la fréquence avec laquelle les terminaisons SP font synapse. Dans le matériel doublement marqué pour la SP et son récepteur, les terminaisons SP ont été fréquemment retrouvées en contact direct ou à proximité des dendrites munies de rNK1 cytoplasmiques, mais toujours éloignées des dendrites à rNK1 membranaires. Pour tester l’hypothèse d’une internalisation soutenue des rNK1 par la SP dans les neurones 5-HT, nous avons ensuite examiné la localisation subcellulaire du récepteur chez le rat traité avec un antagoniste du rNK1, le RP67580. La densité du marquage des rNK1 a été mesurée dans le cytoplasme et sur la membrane des deux types de dendrites (5-HT: rNK1 cytoplasmiques; non 5-HT: rNK1 membranaires). Une heure après une injection unique de l’antagoniste, la distribution du rNK1 est apparue inchangée dans les deux types de neurones (5-HT et non 5-HT). Par contre, après un traitement quotidien de 7 ou 21 jours avec l’antagoniste, nous avons mesuré une augmentation significative des densités cytoplasmique et membranaire du rNK1 dans les neurones 5-HT, sans aucun changement dans les neurones non 5-HT. Ces traitements ont aussi augmenté l’expression du gène rNK1 dans le NRD. Enfin, nous avons mesuré une hausse de la densité membranaire du rNK1 dans les neurones 5-HT, sans hausse de densité cytoplasmique, par suite d’une lésion bilatérale de l’habenula. Ces résultats confortent l’hypothèse d’une activation et d’une internalisation soutenues des rNK1 par la SP dans les neurones 5-HT du NRD caudal. Ils suggèrent aussi que le trafic des rNK1 dans les neurones 5-HT du NRD représente un mécanisme cellulaire en contrôle de l’activation du système 5-HT par les afférences SP en provenance de l’habenula. / We have studied in detail the relationships between substance P (SP) and serotonin (5-hydroxytryptamine, 5-HT) neurotransmission systems in the dorsal raphe nucleus (DRN) of rodents, in order to further our understanding of their interaction during mood regulation. The DRN receives a SP innervation arising from the habenula and, in human, it is known that blockade of the neurokinin-1 receptor (NK1r) of SP by antagonists may have antidepressant effects. In rodents, treatment with NK1r antagonists is known to increase the firing of DRN 5-HT neurons and to induce a desensitization of their 5-HT1A autoreceptors, suggesting local interactions between the SP and 5-HT systems. In a first step, we were able to demonstrate by means of light, confocal, and electron microscopic immunocytochemistry, including double immunolabelings of NK1r and of the biosynthetic enzyme of 5-HT, tryptophane hydroxylase, the presence of NK1r in a subpopulation of 5-HT neurons in the caudal DRN of rat and mouse. After the dual immunolabelings for electron microscopy, we also found that NK1r was mostly cytoplasmic in 5-HT neurons while predominating on the plasma membrane of TPH negative (non 5-HT) neurons. Subsequently, in additionnal double labeling experiments, we were able to identify most if not all non 5-HT dendrites bearing membranous NK1r as GABAergic. In a second step, we combined the immunolabeling of SP with that of NK1r, in order to examine the relationships between SP axon terminals (varicosities ) and the two categories of DRN neurons (5-HT: cytoplasmic NK1r; non 5-HT: membranous NK1r). After single SP labeling, we could estimate the frequency with which SP terminals made synapse at 41%, at least. In the material doubly labeled for SP and NK1r, the SP terminals were often found in close contact or in the immediate proximity of dendrites endowed with cytoplasmic receptor, but never near non 5-HT dendrites bearing membrane bound receptors. To test the hypothesis of a sustained internalization of NK1r in 5-HT neurons, we then tested the effects of RP67580, a selective NK1r antagonist, on the subcellular localization of the receptor. One hour after administration of a single dose, the NK1r distribution was unchanged in both types of dendrites (5-HT and non 5-HT). However, after administration for 7 (subchronic) or 21 (chronic) days, the cytoplasmic and the membrane densities of NK1r were significantly increased in 5-HT dendrites, without any change in non 5-HT dendrites. These treatments also increased NK1r gene expression in the caudal DRN. Lastly, a significant increase in the membrane density of NK1r was measured in the 5-HT neurons, without any increase of the cytoplamic density, following bilateral electrolytic lesioning of the habenula. These results strenghtened the hypothesis of a sustained activation and internalization of NK1r by SP in 5-HT neurons of the caudal DRN. They also suggested that trafficking of NK1r in these cells might represent a cellular mechanism in control of the activation of the 5-HT system by SP afferents from the habebula. substance P récepteur NK1 NK1 receptor sérotonine serotonin raphe dorsalis neuroanatomie fonctionnelle functional neuroanatomy immunocytochimie immunocytochemistry hybridation in situ in situ hybridization habenula humeur mood
133	Récepteur EphA7 : expression régionale dans le cerveau et localisation ultrastructurale dans l’hippocampe chez le rat et la souris adultes Jammow, Wafaa J. 04 1900 (has links) Bourse de maîtrise du Groupe de recherche sur le système nerveux central GRSNC, (2009,2010) Bourse d’études supérieures du Canada Frederick Banting et Charles Best, IRSC Instituts de recherche en santé du Canada, (2011) / EphA7 est un membre de la famille des récepteurs à tyrosine kinase Eph, qui régulent l’adhérence et la motilité cellulaires. EphA7 est hautement conservé chez les vertébrés et largement exprimé durant l'embryogenèse, en particulier pendant le développement du SNC. Dans le cerveau adulte, EphA7 est transcrit principalement dans l'hippocampe, avec de faibles niveaux d'expression ailleurs. Nous avons cartographié sa distribution dans le cerveau du rat et de la souris adultes, par hybridation in situ et immunohistochimie en microscopie photonique et électronique. Les deux méthodes montrent une distribution de marquage très cohérente. Le signal le plus fort a été observé dans l’hippocampe, avec des niveaux moins élevés dans l’habénula, le striatum, l’amygdale, les cortex cingulaire, piriforme et entorhinal, ainsi que le cervelet. Au niveau ultrastructural, dans l’hippocampe, l’immunoréactivité d’EphA7 a été localisée dans le cytoplasme des cellules granulaires (gyrus dentelé) et pyramidales (CA1 et CA3) en ordre décroissant d’intensité. Dans le neuropile de CA1, des épines dendritiques et des prolongements astrocytaires, souvent périsynaptiques, ont été les éléments le plus fréquemment marqués. Plus rarement, nous avons aussi rencontré des dendrites et des terminaisons axonales immunopositives. La localisation préférentielle d’EphA7 dans les épines dendritiques et les prolongements astrocytaires périsynaptiques est conséquente avec un rôle de ce récepteur dans la plasticité synaptique / Abstract: EphA7 is a member of the family of Eph receptor tyrosine kinases, which regulate cell adhesion and motility. EphA7 is highly conserved in vertebrates and widely expressed during embryogenesis, especially during the development of the CNS. In the adult brain, EphA7 is transcribed mainly in the hippocampus, with low expression levels elsewhere. We have mapped its distribution in the adult brain of rat and mice by in situ hybridization and by immunohistochemistry in light and electron microscopy. Both methods show very consistent labelling distribution. The strongest signal was observed in the hippocampus, but modest levels were detected in the habenula, striatum, amygdala, the cingulate, piriform and entorhinal cortex, and the cerebellum. At the ultrastructural level, in the hippocampus, EphA7 immunoreactivity was localized in the cytoplasm of granule (dentate gyrus) and pyramidal cells (CA1 and CA3) in descending order of intensity. In the neuropil of CA1, dendritic spines and astrocytic processes, often perisynaptic were the most frequently labelled. More rarely, we also observed immunopositive dendrites and axon terminals. The preferential localization of EphA7 in dendritic spines and perisynaptic astrocytic processes is consistent with a role of this receptor in synaptic plasticity Système nerveux Hippocampe Récepteurs à tyrosine kinase Récepteurs Eph Efn Neuroanatomie Hybridation in situ Immunocytochimie Microscopie électronique Nervous system Hippocampus Receptor tyrosine kinase Eph receptor Ephrins Neuroanatomy In situ hybridization Immunocytochemistry Electron microscopy
134	Efeito da óxido nítrico sintase na dor neuropática. / Effect of Nitric Oxide Synthase in neuropathic pain. Rocha, Priscila de Abreu 07 February 2012 (has links) A lesão do nervo periférico resulta em dor neuropática persistente ou crônica, caracterizada por dor espontânea em queimação, acompanhada de alodinia e hiperalgesia. A ocorrência de alterações patológicas no sistema nervoso periférico e na medula espinal contribui para o desenvolvimento da dor neuropática. Estas alterações incluem descargas ectópicas nas fibras nervosas periféricas lesadas, as quais mantêm os impulsos nervosos aferentes para o sistema nervoso central. Várias substâncias sintetizadas e/ou liberadas durante o processo inflamatório tais como cininas, neuropeptídeos, citocinas, óxido nítrico, entre outros, assim como as alterações morfofuncionais celulares, podem interferir com a atividade dessas fibras. Estas alterações na homeostasia do indivíduo podem implicar em uma perda da qualidade de vida do paciente. Portanto, tais informações são essenciais para o auxílio de uma terapia analgésica eficiente e/ou preventiva. Assim, o presente projeto tem como objetivo compreender melhor a participação das isoformas neuronal e induzível em modelo de dor neuropática induzida pela lesão constritiva crônica do nervo isquiático de ratos. Para tanto, foi avaliada a sensibilidade dolorosa dos animais utilizando inibidor seletivo para NOS neuronal (nNOS) e induzível (iNOS), antes e após os testes comportamentais. Avaliamos também a distribuição das isoenzimas da NOS, na medula espinal e gânglios da raiz posterior, pelo método de imuno-histoquímica. Ainda, separadamente, analisou-se a síntese de nNOS e iNOS, pelo método de Western blot, e a presença de óxido nítrico utilizando marcador fluorescente DAF-2 (DA). Tais investigações poderão contribuir fornecendo base científica para o desenvolvimento de novos medicamentos e por elucidar alguns dos mecanismos de ação do óxido nítrico, envolvidos na dor neuropática, que é de difícil tratamento e de grande relevância clínica. / The peripheral nerve injury results in persistent or chronic neuropathic pain characterized by spontaneous burning pain accompanied by allodynia and hyperalgesia. The occurrence of pathological changes in the peripheral nervous system and spinal cord contributes to the development of neuropathic pain. These changes include ectopic discharges in damaged peripheral nerve fibers, which maintain the afferent nerve impulses to the central nervous system. Many substances synthesized and / or released during inflammation such as neuropeptides, cytokines, nitric oxide, among others, as well as cellular morphofunctional changes, may interfere with the activity of those fibers. These changes in the homeostasis of the individual can result in a loss of quality of life of the patient. Therefore, such information is essential for an effective analgesic therapy and / or preventive. The aims of this project are to better understand the involvement of neuronal and inducible isoforms in a model of neuropathic pain induced by chronic constriction injury in sciatic nerve of rats. We evaluated the pain sensitivity of animals using a selective inhibitor for neuronal (nNOS) and inducible (iNOS) NOS. We also evaluate the distribution of NOS isoenzymes in the spinal cord and dorsal root ganglia, by the method of immunohistochemistry. Separately, we analyzed the synthesis of iNOS and nNOS by Western blot assay, and the presence of nitric oxide using fluorescent probe DAF-2 (DA). Such research could contribute to providing scientific basis for the development of new drugs and to elucidate some of the mechanisms of action of NOS involved in neuropathic pain. Animal models of disease Animal neuroanatomy Diseases of the nervous system in animal Doenças do sistema nervoso em animal Dor Farmacologia experimental Modelos animais de doenças Neuroanatomia de animal Nitric oxide Óxido nítrico Pain Pharmacology experimental
135	Descompressão dos segmentos timpânico e labiríntico do nervo facial via fossa craniana média / Decompression of the tympanic and labyrinthine segments of the facial nerve via middle cranial fossa Pereira, Marcos Alexandre da Franca 17 February 2016 (has links) Introdução: A paralisia facial periférica caracteriza-se pela interrupção, definitiva ou temporária, do funcionamento da musculatura facial. Decorre de lesão ou mau funcionamento das fibras do nervo facial. É uma enfermidade que causa enorme impacto estético e funcional. O topodiagnóstico e o tratamento da paralisia facial periférica pode requer abordagem médica e fonoaudiológica; ser exclusivamente medicamentoso ou associado à terapia de reabilitação, ou ainda, medicamentoso e cirúrgico, seguido da reabilitação da mímica facial. A via FCM tem sido usada para a descompressão do NF quando a audição precisa ser preservada. Esse acesso pode ser realizado de forma isolada, ou combinado à via transmastóidea. Objetivo: Descrever uma técnica inovadora para a descompressão do nervo facial via fossa craniana média que permite a exposição direta dos segmentos labiríntico e timpânico do nervo facial, com a preservação da função da orelha interna. Métodos: Vinte cabeças extraídas de cadáveres adultos de ambos os gêneros, sem sinais de malformação, traumatismo, doença ou manipulação cirúrgica prévia foram usados neste estudo. Os pontos de referência utilizados foram a artéria meníngea média, o nevo petroso superficial maior, a eminência arqueada, o seio petroso superior, e o plano meatal seguido no ápice petroso a partir da sua porção mais anterior e medial. Foi feita a dissecação do plano meatal, com visualização do meato acústico interno, seguido no ápice petroso a partir da sua porção mais anterior e medial até a região do gânglio geniculado. Foi aberto o tégmen timpânico e identificada a porção timpânica do nervo facial. A dissecação seguiu no sentido retrógrado da porção timpânica do nervo facial em direção ao gânglio geniculado, até a sua porção labiríntica. A aracnoide do meato acústico interno era aberta, e depois de identificado o nervo facial, a bainha deste nervo era aberta em extensão exposta. Resultados: As distâncias médias, entre o canal semicircular lateral e a porção média do cabo do martelo eram similares em ambos os lados (4,0mm±0,5mm). As distâncias médias, da porção timpânica do nervo facial até metade do cabo do martelo foram determinadas e resultaram em 2,0mm ± 0,44mm, e em 2,2mm ± 0,48mm para os lados direito e esquerdo, respectivamente. O segmento timpânico do nervo facial apresentou, em média, comprimento total de 11mm ± 0,67mm para o lado direito, e 11,5mm±0,60mm para o esquerdo. Os comprimentos longitudinais da janela óssea confeccionada no tégmen timpânico foram, em média, 16,8mm±1,67mm para o lado direito, e 16,8mm ± 1,20mm para o lado esquerdo. Já os comprimentos transversais da janela óssea confeccionada no tégmen timpânico foram, em média, 5,5mm ± 1,20mm e 5,0mm ± 1,75mm para os lados direito e esquerdo, respectivamente. O valor médio da área elíptica formada pelos comprimentos longitudinal e transversal da janela óssea confeccionada no tégmen timpânico foram 72,5mm2 ± 22,5mm2 à direita, e 65,9mm2 ± 30,3mm2 à esquerda. Conclusão: A técnica proposta pode ser utilizada para a cirurgia de descompressão do nervo facial via fossa craniana média, pois permite acesso aos segmentos timpânico, labiríntico e metal desse nervo, sem impor risco à audição. Pela possibilidade de acessar a porção timpânica do nervo, sem a necessidade da abertura da mastoide, o procedimento permite que se reduza o tempo cirúrgico e os riscos aos pacientes / Background: Peripheral facial palsy is characterized by the permanent or temporary interruption of the functioning of the facial muscles. The middle cranial fossa (MCF) approach has been used for the decompression of the facial nerve (FN) when hearing needs to be preserved. In this work, we describe an innovative technique for the decompression of the FN through the MCF approach that allows the direct exposure of the labyrinthine and entire tympanic segment of the FN, with the preservation of inner ear function. Methods: Twenty cadavers heads were used in this study. The reference landmarks used were the middle meningeal artery, the greater superficial petrosal nerve, the arcuate eminence, the inferior petrosal sinus and the meatal plane following the petrous apex from its most anterior and medial portion. Results: The tympanic segment of the FN presented, on average, a total length of 11 ± 0.67mm to the right, and 11.5 ± 0.60mm to the left. The longitudinal lengths of bone window in the tegmen tympani were 16.8±1.67mm to the right, and 16.8 ± 1.20mm to the left. The cross-sectional lengths of the bone window in the tegmen tympani were 5.5 ± 1.20mm and 5.0±1.75mm to the right and left sides, respectively. The average value of elliptical area formed by the longitudinal and transversal lengths of the bone window made in the tegmen tympani were 72.5 ± 22.5mm2 to the right, and 65.9 ± 30.3mm2 to the left. Conclusion: The proposed technique can be used for the surgical decompression of the tympanic, labyrinthine and meatal segments of the FN through the MCF, without imposing a risk to hearing, in addition to reducing the surgical time and the risk to patients Cadaver Cadáver Cranial fossa middle/surgery Facial nerve Fossa craniana média/cirurgia Nervo facial Neuroanatomia Neuroanatomy Osso temporal/anatomia e histologia Osso temporal/cirurgia Temporal bone/anatomy e histology Temporal bone/surgery
136	Atlasing white matter pathways using diffusion magnetic resonance imaging (dMRI) : With a focus on human association tracts in the external and extreme capsules / Création d’un atlas des faisceaux de la matière blanche par imagerie de diffusion : Axé sur les faisceaux d’association humains des capsules externe et extrême Hau, Janice 16 December 2015 (has links) Il est de plus en plus reconnu que les connexions du cerveau jouent un rôle important sur la fonction cérébrale, en particulier les fonctions cognitives supérieures comme le langage. Cependant l’imperfection des techniques traitant les connexions macroscopiques humaines a empêché l’avancement de nos connaissances sur l'anatomie des faisceaux. Nous nous appuyons ainsi aujourd’hui essentiellement sur la littérature du XIXème siècle. Les définitions des trajets et des connexions anatomiques de nombreux faisceaux sont constamment débattues. En utilisant l'imagerie de diffusion, nous réévaluons les anatomies des faisceaux clés dans une grande cohorte saine. Nous utilisons une nouvelle approche de segmentation des faisceaux qui vise à reproduire la méthode introduite par les dissectionistes. Celle-ci définit un tract comme l’ensemble des fibres passant par une même tige, minimisant ainsi l’a priori sur leurs terminaisons. Nous nous concentrons sur les faisceaux d'association des capsules externe et extrême, notamment les faisceaux occipito-frontal inférieur (FOFI) et unciné (FU) impliqués dans le circuit du langage ventral. Nous passons en revue la littérature sur ces tracts, fournissons des descriptions détaillées de leurs connectivités anatomiques et donnons un nouvel éclairage sur leur asymétrie et organisation interne. Dans une première étude, nous confirmons que les deux faisceaux ont de plus vastes projections dans le cortex qu'on ne le pensait, et nous présentons de nouveaux résultats concernant les branches asymétriques des faisceaux. Dans une deuxième étude, nous étudions en profondeur le FU et ses sous composantes. Nous résolvons un débat d’un siècle en exhibant clairement sa frontière avec le FOFI et nous identifions pour chaque sous composante des caractéristiques anatomiques distinctives y compris des asymétries. Ces résultats apportent un éclairage nouveau sur le FOFI et le FU qui sera crucial pour démêler leurs rôles multifonctionnels. / The importance of the brain’s connections for cerebral function is increasingly emphasized especially for higher cognitive functions like language. But the imperfection of the techniques used to address the human macroscopic connections has prevented the advancement of our knowledge on the anatomy of fibre pathways. Thus we rely heavily on XIXth century literature. Controversy surrounding the anatomical course and connections of many fibre pathways persists. Using diffusion imaging, we reevaluate the anatomies of key pathways in a large healthy cohort. We use a novel tract segmentation approach that aims to reproduce the method introduced by dissectionists – defining a tract as all fibers passing through a stem, thus minimizing a priori on their terminations. We focus on the association pathways of the external and extreme capsules, namely the inferior fronto-occipital (IFOF) and uncinate fasciculi (UF), implicated in the ventral language circuitry. We review the literature on these tracts, provide detailed descriptions of their connectional anatomies and present new insights regarding their asymmetry and internal organization. In a first study, we confirm that both tracts have more extensive projections within the cortex than previously thought and present new results regarding asymmetrical tract branches. In a second study we further investigate the UF including its subcomponents. We resolve a century old debate by clarifying its elusive boundary with the IFOF and reveal the distinctive anatomical features including asymmetry patterns of each subcomponent. These results shed new light on the IFOF and UF and will be crucial for disentangling their multifunctional roles. Matière blanche Neuroanatomie Imagerie de diffusion Tractographie Voies de fibres Faisceau occipito-rontale inférieur Faisceau unciné Sous-composants Capsule externe Capsule extrême White matter Neuroanatomy Diffusion imaging Tractography Fibre pathways Inferior fronto-occipital fasciculus Uncinate fasciculus Subcomponents External capsule Extreme capsule
137	Functions of TGF-β2 and GDNF in the Development of the Mouse Nervous System: Evidence from Double Mutant Mice / TGF-β2/GDNF Synergism in Mouse Nervous System Development / Bedeutung von TGF-β2/GDNF während der Entwicklung des Nervensystems der Maus: Beweise bei mutanten Mäusen / Bedeutung von TGF-β2/GDNF in der Entwicklung des Nervensystems der Maus Rahhal, Belal Mahmoud Mustafa Rahhal 31 October 2006 (has links) No description available. 500 Naturwissenschaften allgemein Mathematics and Computer Science TGF-ß2 GDNF entwicklung des Nervensystens der Maus Tod und Leben der Neuronen TGF-ß2 GDNF neuronal survival and death neurodegenerative diseases mutant mice Biology/ neuroanatomy WA 000: Biologie
138	Substance P, récepteurs NK1 et neurones à sérotonine : relations anatomiques et fonctionnelles dans le noyau raphe dorsalis Baptiste, Lacoste 06 1900 (has links) Nous avons étudié les relations anatomiques entre les systèmes de neurotransmission à substance P (SP) et à sérotonine (5-hydroxytryptamine, 5-HT) dans le noyau du raphé dorsal (NRD) du rongeur, afin de mieux comprendre les interactions entre ces systèmes durant la régulation de l’humeur. Le NRD reçoit une innervation SP provenant de l’habenula, et le blocage pharmacologique des récepteurs neurokinine-1 (rNK1) de la SP aurait des effets antidépresseurs. Chez le rongeur, le traitement par les antagonistes des rNK1 s’accompagne d’une désensibilisation des autorécepteurs 5-HT1A de la 5-HT et d’une hausse de l’activité des neurones 5-HT dans le NRD, suggérant des interactions locales entre ces deux systèmes. Dans un premier temps, nous avons démontré par doubles marquages immunocytochimiques en microscopies optique, confocale et électronique, la présence du rNK1 dans une sous-population de neurones 5-HT du NRD caudal. Lors de l’analyse en microscopie électronique, nous avons pu constater que les rNK1 étaient principalement cytoplasmiques dans les neurones 5-HT et membranaires sur les neurones non 5-HT du noyau. Grâce à d’autres doubles marquages, nous avons aussi pu identifier les neurones non-5-HT porteurs de rNK1 comme étant GABAergiques. Nous avons ensuite combiné l’immunomarquage de la SP avec celui du rNK1, dans le but d’examiner les relations entre les terminaisons (varicosités ) axonales SP et les neurones 5-HT (pourvus de rNK1 cytoplasmiques du NRD caudal. En simple marquage de la SP, nous avons pu estimer à 41% la fréquence avec laquelle les terminaisons SP font synapse. Dans le matériel doublement marqué pour la SP et son récepteur, les terminaisons SP ont été fréquemment retrouvées en contact direct ou à proximité des dendrites munies de rNK1 cytoplasmiques, mais toujours éloignées des dendrites à rNK1 membranaires. Pour tester l’hypothèse d’une internalisation soutenue des rNK1 par la SP dans les neurones 5-HT, nous avons ensuite examiné la localisation subcellulaire du récepteur chez le rat traité avec un antagoniste du rNK1, le RP67580. La densité du marquage des rNK1 a été mesurée dans le cytoplasme et sur la membrane des deux types de dendrites (5-HT: rNK1 cytoplasmiques; non 5-HT: rNK1 membranaires). Une heure après une injection unique de l’antagoniste, la distribution du rNK1 est apparue inchangée dans les deux types de neurones (5-HT et non 5-HT). Par contre, après un traitement quotidien de 7 ou 21 jours avec l’antagoniste, nous avons mesuré une augmentation significative des densités cytoplasmique et membranaire du rNK1 dans les neurones 5-HT, sans aucun changement dans les neurones non 5-HT. Ces traitements ont aussi augmenté l’expression du gène rNK1 dans le NRD. Enfin, nous avons mesuré une hausse de la densité membranaire du rNK1 dans les neurones 5-HT, sans hausse de densité cytoplasmique, par suite d’une lésion bilatérale de l’habenula. Ces résultats confortent l’hypothèse d’une activation et d’une internalisation soutenues des rNK1 par la SP dans les neurones 5-HT du NRD caudal. Ils suggèrent aussi que le trafic des rNK1 dans les neurones 5-HT du NRD représente un mécanisme cellulaire en contrôle de l’activation du système 5-HT par les afférences SP en provenance de l’habenula. / We have studied in detail the relationships between substance P (SP) and serotonin (5-hydroxytryptamine, 5-HT) neurotransmission systems in the dorsal raphe nucleus (DRN) of rodents, in order to further our understanding of their interaction during mood regulation. The DRN receives a SP innervation arising from the habenula and, in human, it is known that blockade of the neurokinin-1 receptor (NK1r) of SP by antagonists may have antidepressant effects. In rodents, treatment with NK1r antagonists is known to increase the firing of DRN 5-HT neurons and to induce a desensitization of their 5-HT1A autoreceptors, suggesting local interactions between the SP and 5-HT systems. In a first step, we were able to demonstrate by means of light, confocal, and electron microscopic immunocytochemistry, including double immunolabelings of NK1r and of the biosynthetic enzyme of 5-HT, tryptophane hydroxylase, the presence of NK1r in a subpopulation of 5-HT neurons in the caudal DRN of rat and mouse. After the dual immunolabelings for electron microscopy, we also found that NK1r was mostly cytoplasmic in 5-HT neurons while predominating on the plasma membrane of TPH negative (non 5-HT) neurons. Subsequently, in additionnal double labeling experiments, we were able to identify most if not all non 5-HT dendrites bearing membranous NK1r as GABAergic. In a second step, we combined the immunolabeling of SP with that of NK1r, in order to examine the relationships between SP axon terminals (varicosities ) and the two categories of DRN neurons (5-HT: cytoplasmic NK1r; non 5-HT: membranous NK1r). After single SP labeling, we could estimate the frequency with which SP terminals made synapse at 41%, at least. In the material doubly labeled for SP and NK1r, the SP terminals were often found in close contact or in the immediate proximity of dendrites endowed with cytoplasmic receptor, but never near non 5-HT dendrites bearing membrane bound receptors. To test the hypothesis of a sustained internalization of NK1r in 5-HT neurons, we then tested the effects of RP67580, a selective NK1r antagonist, on the subcellular localization of the receptor. One hour after administration of a single dose, the NK1r distribution was unchanged in both types of dendrites (5-HT and non 5-HT). However, after administration for 7 (subchronic) or 21 (chronic) days, the cytoplasmic and the membrane densities of NK1r were significantly increased in 5-HT dendrites, without any change in non 5-HT dendrites. These treatments also increased NK1r gene expression in the caudal DRN. Lastly, a significant increase in the membrane density of NK1r was measured in the 5-HT neurons, without any increase of the cytoplamic density, following bilateral electrolytic lesioning of the habenula. These results strenghtened the hypothesis of a sustained activation and internalization of NK1r by SP in 5-HT neurons of the caudal DRN. They also suggested that trafficking of NK1r in these cells might represent a cellular mechanism in control of the activation of the 5-HT system by SP afferents from the habebula. substance P récepteur NK1 NK1 receptor sérotonine serotonin raphe dorsalis neuroanatomie fonctionnelle functional neuroanatomy immunocytochimie immunocytochemistry hybridation in situ in situ hybridization habenula humeur mood
139	Récepteur EphA7 : expression régionale dans le cerveau et localisation ultrastructurale dans l’hippocampe chez le rat et la souris adultes Jammow, Wafaa J. 04 1900 (has links) EphA7 est un membre de la famille des récepteurs à tyrosine kinase Eph, qui régulent l’adhérence et la motilité cellulaires. EphA7 est hautement conservé chez les vertébrés et largement exprimé durant l'embryogenèse, en particulier pendant le développement du SNC. Dans le cerveau adulte, EphA7 est transcrit principalement dans l'hippocampe, avec de faibles niveaux d'expression ailleurs. Nous avons cartographié sa distribution dans le cerveau du rat et de la souris adultes, par hybridation in situ et immunohistochimie en microscopie photonique et électronique. Les deux méthodes montrent une distribution de marquage très cohérente. Le signal le plus fort a été observé dans l’hippocampe, avec des niveaux moins élevés dans l’habénula, le striatum, l’amygdale, les cortex cingulaire, piriforme et entorhinal, ainsi que le cervelet. Au niveau ultrastructural, dans l’hippocampe, l’immunoréactivité d’EphA7 a été localisée dans le cytoplasme des cellules granulaires (gyrus dentelé) et pyramidales (CA1 et CA3) en ordre décroissant d’intensité. Dans le neuropile de CA1, des épines dendritiques et des prolongements astrocytaires, souvent périsynaptiques, ont été les éléments le plus fréquemment marqués. Plus rarement, nous avons aussi rencontré des dendrites et des terminaisons axonales immunopositives. La localisation préférentielle d’EphA7 dans les épines dendritiques et les prolongements astrocytaires périsynaptiques est conséquente avec un rôle de ce récepteur dans la plasticité synaptique / Abstract: EphA7 is a member of the family of Eph receptor tyrosine kinases, which regulate cell adhesion and motility. EphA7 is highly conserved in vertebrates and widely expressed during embryogenesis, especially during the development of the CNS. In the adult brain, EphA7 is transcribed mainly in the hippocampus, with low expression levels elsewhere. We have mapped its distribution in the adult brain of rat and mice by in situ hybridization and by immunohistochemistry in light and electron microscopy. Both methods show very consistent labelling distribution. The strongest signal was observed in the hippocampus, but modest levels were detected in the habenula, striatum, amygdala, the cingulate, piriform and entorhinal cortex, and the cerebellum. At the ultrastructural level, in the hippocampus, EphA7 immunoreactivity was localized in the cytoplasm of granule (dentate gyrus) and pyramidal cells (CA1 and CA3) in descending order of intensity. In the neuropil of CA1, dendritic spines and astrocytic processes, often perisynaptic were the most frequently labelled. More rarely, we also observed immunopositive dendrites and axon terminals. The preferential localization of EphA7 in dendritic spines and perisynaptic astrocytic processes is consistent with a role of this receptor in synaptic plasticity / Bourse de maîtrise du Groupe de recherche sur le système nerveux central GRSNC, (2009,2010) Bourse d’études supérieures du Canada Frederick Banting et Charles Best, IRSC Instituts de recherche en santé du Canada, (2011) Système nerveux Hippocampe Récepteurs à tyrosine kinase Récepteurs Eph Efn Neuroanatomie Hybridation in situ Immunocytochimie Microscopie électronique Nervous system Hippocampus Receptor tyrosine kinase Eph receptor Ephrins Neuroanatomy In situ hybridization Immunocytochemistry Electron microscopy
140	Origine des projections sensorimotrices dans des sous-régions du cortex moteur primaire chez le singe capucin Dea, Melvin 04 1900 (has links) No description available. Cebus Apella singe cortex moteur primaire neuroanatomie connections inputs ipsilatéral sensorimoteur réseau main Cebus apella monkey primary motor cortex neuroanatomy connections inputs ipsilateral sensorimotor network hand area

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