A STUDY ON THE BIOCHEMICAL AND CELLULAR EFFECTS OF ENVIORMENTAL TOBACCO SMOKE ON ADULT AND DEVELOPING RAT BRAIN BIOCHEMISTRY

Fuller, Brian

01 January 2011

Exposure to environmental tobacco smoke (ETS) has been recognized as a significant health risk for adults and children. In adults, ETS exposure has been linked to increased incidences of cardiovascular disease and dementia. In children, exposure has been linked to behavioral and cognitive deficits. Studies on the effects of ETS in the brain have been largely epidemiological, and have lacked a defined explanation of the molecular/biochemical effects of ETS. The present dissertation aims to test whether ETS exposure leads to altered biochemistry in the adult and developing mammalian brain. A rat ETS exposure model was employed to investigate changes at the molecular and cellular level. In an adult ETS exposure study, we focused on markers of astrogliosis , oxidative stress, and cell death. We observed altered GFAP suggestive of reactive astrogliosis. Yet, markers of oxidative and cell stress were unaffected by ETS exposure in the brain regions examined. Increased degradation of αII-spectrin and dephosphorylation of serine116 on PEA-15 indicated greater apoptotic cell death signaling in the brains of ETS exposed animals. β-synuclein was greatly upregulated by ETS, a neuroprotective protein previously reported to exhibit anti-apoptotic and anti-fibrillogenic properties. We next employed a rodent model of postnatal ETS exposure to investigate effects on developing cerebellum using a system biology approach involving mass spectrometry (MS). Proteins at statistically different abundance between groups were correlated with relevant biochemical processes and pathways by bioinformatics. ETS responsive data were enriched in elements associated with all aspects of aerobic respiration. These results were substantiated by orthogonal molecular measures, along with evidence for increase mitochondrial biogenesis/fission. These findings suggest an increase mitochondrial density driven by a demand for ATP. Further exploration of the ETS responsive proteome identified statistically significant associations of the ETS with neuron projections, in particular axon associated proteins and synaptic vesicles. Immunotbloting and microscopy experiments substantiated altered process outgrowth and synaptogenic processes. The presented data depict a striking modulation in cerebellar formation consequent to ETS exposure and the energy source to allow that modulation to occur. Our findings could provide a biochemical and cellular rational for adverse neurological effects observed in ETS exposed children.

Secondhand Smoke

Proteomics

Brain

Development

Cerebellum

Enviormental Tobacco Smoke

Life Sciences

Fonction de la signalisation des Rho GTPases au cours du développement du cervelet / Function of Rho GTPase signaling during cerebellum development

Jaudon, Fanny

02 July 2012

La cellule de Purkinje (PC) est l'élément central du réseau neuronal du cortex cérébelleux et possède un arbre dendritique très développé qui se développe au cours des trois premières semaines post-natales chez la souris. Cette arborisation nécessite de nombreux réarrangement du cytosquelette, un processus contrôlé par les GTPases et leurs régulateurs, les GEFs et les GAPs, dans de nombreux types cellulaires. Au cours de ma thèse, j'ai étudié l'implication de la signalisation des RhoGTPases dans le développement post-natal du cervelet, et plus particulièrement des PCs chez la souris. Afin d'identifier de nouveaux acteurs de la signalisation des RhoGTPases impliqués dans la différenciation des PCs, nous avons établi le profil d'expression de toutes les GTPases et des GEFs de la famille DOCK à différents stades de développement de ces cellules (P3, P7, P15, P20) par Q-PCR en temps réel. Cette approche globale nous a permis d'identifier une GTPase, RhoQ, et un GEF, DOCK10, dont l'expression est très fortement augmentée au cours du développement des PCs. Nous avons montré que l'extinction de leur expression par infection lentivirale dans un modèle de coupes organotypiques de cervelet ou dans des neurones d'hippocampe entraine une très forte diminution du nombre d'épines dendritiques, révélant un rôle crucial de ces protéines dans la différenciation des PCs. / Purkinje cell (PC) occupy a central and integrative position in the synaptic network of the cerebellum and have the most elaborate dendritic tree among CNS neurons, which develops remarkably in the first three postnatal weeks in mice. This arborization requires intensive actin cytoskeleton remodeling, a process known in many cell types to be controlled by Rho GTPases and their regulators, GEFs and GAPs. During my thesis, I investigated the importance of Rho signaling during postnatal mouse cerebellar development, focusing on PC differentiation.In order to identify novel regulators of PC differentiation among members of the Rho signaling pathway, I undertook a global approach, comparing gene expression profiles of all mammalian Rho GTPases and all GEFs of the DOCK family at various stages of postnatal PC differentiation (P3, P7, P15 and P20) using real-time quantitative PCR. My global approach has allowed the identification of two Rho signaling actors, the GTPase RhoQ and the RhoGEF DOCK10, whose expressions increase dramatically during cerebellar development. Lentiviral shRNA-mediated knock down of their expression in organotypic cerebellar cultures and in hippocampal neurons showed strong dendritic spine defects, revealing an essential role for these proteins in PC differentiation.

Cellule de Purkinje

Cervelet

RhoGTPases

RhoQ

Dock10

Épines dendritiques

Purkinje cell

Cerebellum

RhoGTPases

RhoQ

Dock10

Dendritic spines

Role of cerebellar LTP at parallel fiber : Purkinje cell synapses in spatial navigation / Rôle du LTP cérébelleux à fibre parallèle : synapses Purkinje cellulaires dans la navigation spatiale

Lefort, Julie

18 July 2014

La navigation spatiale peut être subdivisée en deux processus: la construction d’une représentation mentale de l’espace à partir de l’exploration de l’environnement d'une part, et l’utilisation de cette représentation de façon à produire le trajet le plus adapté pour rejoindre le lieu souhaité d'autre part. Lors de l’exploration de l’environnement, des informations externes et des informations de mouvement propre (i.e. vestibulaires et proprioceptives) sont combinées pour former la carte cognitive. Depuis longtemps des études suggèrent que le cervelet participe à la navigation spatiale mais son rôle a souvent été confiné à l’exécution motrice. Notre équipe a étudié des souris mutantes L7-PKCI présentant un déficit de plasticité synaptique de type dépression à long terme (DLT) au niveau des synapses entre fibres parallèles et cellules de Purkinje du cortex cérébelleux. Ces travaux ont montré que les souris présentent à la fois un déficit dans l'optimisation de la trajectoire mais également dans le maintien de la carte cognitive formée dans l'hippocampe. En effet, les propriétés de décharge des cellules de lieu de l'hippocampe sont affectées chez ces souris exclusivement lorsque celles-ci doivent naviguer en se reposant sur les informations provenant de leur mouvement propre, c'est à dire quand elles explorent l'environnement dans le noir. A ces mêmes synapses, une plasticité de type potentialisation à long terme (PLT) a été observée et permet (avec la DLT) la modulation bidirectionelle de l’efficacité synaptique. La plasticité bidirectionnelle est un processus clé dans les modèles théoriques de type « filtre adaptatif » de traitement de l’information par le cervelet. Selon ces modèles, l’absence de PLT ou DLT devrait affecter de façon similaire la plasticité bidirectionnelle et conduire ainsi à des déficits comparables. Pour tester cette hypothèse, nous avons étudié les conséquences fonctionnelles d’un déficit de type PLT au niveau de la même synapse entre fibre parallèle et cellule de Purkinje. Nous avons utilisé la lignée transgénique L7-PP2B, spécifiquement déficitaire pour cette plasticité.Malgré un léger déficit moteur révélé exclusivement sur le rotarod, les capacités de navigation des souris L7-PP2B ne sont pas affectées dans une tâche de navigation en labyrinthe aquatique de type piscine de Morris. Les propriétés des cellules de lieu de l’hippocampe des souris L7-PP2B ont ensuite été caractérisées lors de l’exploration d’une arène circulaire dans différentes conditions environnementales. Contrairement à celles des souris L7-PKCI, les propriétés des cellules de lieux des souris L7-PP2B ne sont pas affectées lorsque les souris ne peuvent utiliser que les informations de mouvement propre pour s’orienter, c'est à dire dans le noir. Par contre, les cellules de lieux des souris L7-PP2B présentent une instabilité en l’absence de toute manipulation d’indice environnemental, dans 23% des sessions d’enregistrement. Cette instabilité, absente chez les souris contrôles, se manifeste de façon imprévisible dans un environnement familier et est caractérisée par une rotation angulaire cohérente de l’ensemble des cellules de lieux enregistrées. Ces données suggèrent qu’en l’absence de PLT cérébelleuse la représentation spatiale de l’hippocampe n’est pas ancrée de façon stable aux indices externes proximaux. Ces résultats, associés à ceux des souris L7-PKCI indiquent que le cervelet contribue de manière complexe à la fois à la représentation spatiale hippocampique et aux capacités de navigation et que DLT et PLT jouent probablement des rôles différents dans ces processus. / Spatial navigation can be divided into two processes: building a spatial representation from the environment exploration and using this representation to produce an adapted trajectory toward a goal. During the environment exploration, external and self-motion information (i.e. vestibular and proprioceptive) are combined to form the spatial map. It has long been suggested that the cerebellum participates in spatial navigation but its role has often been confined to motor execution. Our team has studied L7-PKCI mice which lack a plasticity mechanism (long term depression (LTD)) at parallel fiber-Purkinje cell synapses in the cerebellar cortex. These works have shown that L7-PKCI mice present a deficit in trajectory optimization as well as in the maintenance of the cognitive map in the hippocampus. Indeed in these mice, the firing properties of hippocampal place cells are affected specifically when mice have to rely on self-motion information, i.e. when exploring the environment in the dark.A these same synapses, another type of plasticity (long term potentiation (LTP)) has been described, and allows (with LTD) the bidirectional modulation of the synaptic efficiency. Bidirectional plasticity is a key element of the ‘adaptive filter’ theoretical models of cerebellar information processing. According to these models, a lack of LTP or LTD should similarly affect bidirectional plasticity and result in comparable deficits. To test this prediction, we investigated the functional consequences of a deficit of LTP at parallel fiber-Purkinje cell synapses using the L7-PP2B mice model, specifically impaired for this plasticity.In spite of a mild motor adaptation deficit, revealed on the rotarod task, spatial learning of L7-PP2B mice was not impaired in the watermaze task. Hippocampal place cell properties of L7-PP2B mice were characterized during exploration of a circular arena, following different experimental manipulations. In contrast to mice lacking cerebellar LTD, place cells properties of L7-PP2B mice were not impaired when mice had to rely on self-motion cues, i.e. in the dark. Surprisingly, L7-PP2B place cells displayed instability in the absence of any proximal cue manipulation in 23 % of the recording sessions. This instability occurred in an unpredictable way in a familiar environment and was characterized each time by a coherent angular rotation of the whole set of recorded place cells. These data suggest that, in the absence of cerebellar LTP, hippocampal spatial representation cannot be reliably anchored to the proximal cue. These results along with those from L7­PKCI mice, indicate that the cerebellum contributes to both hippocampal representation and subsequent navigation abilities and that LTP and LTD are likely to play different roles in these processes.

Hippocampe

Cervelet

Navigation spatiale

Cellule de lieu

Plasticité

Ltp

Spatial navigation

Cerebellum

612.82

Análise da proteína CASPASE 9 e dos microRNAs miR-21, miR126 e miR-155 relacionados ao mecanismo de apoptose no cerebelo de ratos submetidos à isquemia cerebral focal associada ou não ao modelo de alcoolismo / ANALYSIS of the CASPASE 9 PROTEIN AND THE MICRORNAS MIR-21, MIR-126 AND MIR-155 RELATED TO THE MECHANISM OF APOPTOSIS IN THE CEREBELLUM OF RATS SUBMITTED TO FOCAL CEREBRAL ISCHEMIA ASSOCIATED OR NOT TO THE MODEL OF ALCOHOLISM

Silva, Jairo Pinheiro da

06 February 2015

Introdução: A isquemia cerebral é uma desordem da função cerebral ocasionado pela supressão sanguínea no tecido cerebral sem nenhuma outra causa aparente do que a vascular. Estudos revelam os danos causados pela isquemia cerebral focal repercutem não apenas na região da lesão isquêmica, mas também em outras regiões do encéfalo, dentre elas o cerebelo. O etanol atua diminuindo o tempo de reação do corpo e a resposta reflexa, produzindo até mesmo perda de coordenação motora. Por tempos, estudos tem verificado a ação do etanol no cerebelo. Objetivos: Este trabalho tem por objetivo analisar o córtex cerebelar de ratos submetidos a um modelo experimental de isquemia cerebral focal transitória por oclusão da ACM durante 90 minutos, seguida por reperfusão de 48 horas, associado ou não a modelo de alcoolismo. Material e métodos: Foram utilizados 50 ratos Wistar adultos, subdivididos em 5 grupos experimentais: grupo controle (C): animais submetidos apenas à anestesia; grupo sham (S): animais submetidos à simulação completa do procedimento cirúrgico; grupo isquêmico (I): animais submetidos à isquemia cerebral focal por 90 minutos seguido por reperfusão de 48 horas; grupo alcoolizado (A): animais que receberam diariamente álcool etílico absoluto diluído a 20% em água durante quatro semanas; e, grupo isquêmico e alcoolizado (IA): animais submetidos ao mesmo tratamento do grupo A e que, após quatro semanas foram submetidos à isquemia cerebral focal durante 90 minutos, seguido por reperfusão de 48 horas. As amostras do cerebelo coletadas e realizado a análise de imunohistoquímica da proteína CASPASE-9 e a análise sérica por meio de PCR - RT dos miRNAS miR-21, miR-126 e o miR155. Resultados: A expressão de CASPASE 9 teve maior expressão no grupos I, A e I+A. A análise dos miRNAS, o miR-126 foi maior nos grupos A e I+A, o miR-155 foi maior nos grupos I e I+A. Conclusões: Podemos concluir que a ocorrência de apoptose no córtex cerebelar, mesmo distante do foco isquêmico e ques miRNAs 126 e 155 apresentam correlação com a apoptose celular em ratos isquêmicos e submetidos ao modelo de alcoolismo crônico / INTRODUCTION: Cerebral ischemia is a disorder of brain function caused by blood suppression in brain tissue with no apparent cause other than vascular. Studies reveal the damage caused by focal cerebral ischemia to affect not only the region of the ischemic lesion but also other regions of the brain, including the cerebellum. Ethanol acts by decreasing the reaction time of the body and the reflex response, producing even loss of motor coordination. For some time, studies have verified the action of ethanol in the cerebellum. AIMS: This study aims to analyze the cerebellar cortex of rats submitted to an experimental model of transient focal cerebral ischemia by ACM occlusion for 90 minutes, followed by reperfusion of 48 hours, associated or not with the model of alcoholism. METHODS: Fifty adult Wistar rats were used, subdivided into 5 experimental groups: control group (C): animals submitted to anesthesia only; sham group (S): animals submitted to complete simulation of the surgical procedure; ischemic group (I): animals submitted to focal cerebral ischemia for 90 minutes followed by reperfusion of 48 hours; alcoholic group (A): animals that received daily absolute ethanol diluted 20% in water for four weeks; and ischemic and alcoholized group (AI): animals submitted to the same treatment as group A and after four weeks were submitted to focal cerebral ischemia for 90 minutes, followed by reperfusion of 48 hours. The cerebellum samples were collected and the immunohistochemical analysis of the CASPASE-9 protein and the serum analysis by means of RT-PCR of miRNAS miR-21, miR-126 and miR155 were performed. RESULTS: The expression of CASPASE 9 had higher expression in groups I, A and I + A. The miRNAS analysis, miR-126 was higher in groups A and I + A, miR-155 was higher in groups I and I + A. CONCLUSIONS: We can conclude that apoptosis occurs in the cerebellar cortex, even if it is distant from the ischemic focus, and that miRNAs 126 and 155 present a correlation with cellular apoptosis in ischemic rats and submitted to the chronic alcohol model

Alcoholism

Alcoolismo

Apoptose

Apoptosis

Cerebellum

Cerebelo

Focal ischemia

Isquemia focal

microRNAs

microRNAs

Etude anatomo-fonctionnelle par IRM de la mémoire de travail chez des enfants traités pour un médulloblastome / Anatomo-functional study by MRI of working memory in children treated for medulloblastoma

Hoang, Duc Ha

30 September 2014

Les enfants traités pour un médulloblastome cérébelleux peuvent présenter des troubles cognitifs, en particulier de la mémoire de travail, qui entravent les apprentissages et la scolarité. Une meilleure compréhension des bases anatomo-fonctionnelles du cervelet et de son engagement dans la mémoire de travail est essentielle pour minimiser les effets secondaires du traitement et améliorer la qualité de vie des patients. Pour cela, une étude multicentrique française a été conduite.Les objectifs de cette thèse étaient de : (i) mener une étude clinico-radiologique chez les patients en confrontant les résultats des tests neuropsychologiques avec les lésions cérébelleuses macroscopiques identifiées par IRM anatomique; (ii) cartographier par IRMf BOLD l'engagement du cervelet dans la MDT chez les sujets sains ; (iii) cartographier par IRMf BOLD la réorganisation corticale chez les patients lors des mêmes tâches de MDT. Des tâches de n-back ont été utilisées selon un plan factoriel modulant la modalité sensorielle (visuelle ou auditive) et la nature (non-verbale ou verbale) de l'information à mémoriser.L'introduction de cette thèse est une revue exhaustive de la littérature sur les apports des nouvelles méthodes d'IRM dans l'exploration des troubles cognitifs chez les enfants pris en charge pour un médulloblastome cérébelleux.Deux études comparatives cas-témoins multicentriques ont été réalisées chez des sujets droitiers en combinant les données des explorations cliniques, neuropsychologiques et d'imagerie.• La 1ère étude a été conduite sur des IRM 1.5T avec des tâches 1-back. Douze sujets sains et 9 patients ont été inclus mais 4 patients et 4 sujets sains ont secondairement exclus, principalement à cause de mouvements excessifs et de problèmes techniques. Les analyses des IRMf ont donc porté sur 8 sujets sains (4 garçons de 11,11,9 ans) et 5 patients (5 garçons de 11,91,0 ans). • La 2ème étude a été conduite sur des IRM 3T avec des tâches 2-back. Quinze sujets sains et 3 patients ont été inclus mais 6 sujets sains ont été exclus à cause d'une anxiété, une précocité et des problèmes techniques. Les analyses des IRMf ont donc porté sur 9 sujets sains (7 garçons de 11,6±2,2 ans) et 3 patients (1 garçon de 14±0,6 ans).Les résultats montrent :(i) l'existence de troubles de la mémoire de travail visuo-spatiale chez les patients ;(ii) l'existence de lésions macroscopiques du lobe postérieur gauche du cervelet chez les patients ;(iii) l'engagement du lobe postérieur gauche du cervelet lors des tâches de MDT non-verbale et l'engagement du lobe postérieur droit du cervelet lors des tâches de MDT verbale chez les sujets sains ;(iv) l'engagement cérébral (cortex préfrontal, pariétal et temporo-occipital) lors des tâches de MDT chez les patients suggérant l'existence d'une réorganisation corticale.Pour conclure, ce travail souligne l'importance du lobe postérieur gauche du cervelet pour la MDT non-verbale chez les enfants droitiers. Cette information devrait être prise en compte lors de la planification opératoire des enfants opérés pour un médulloblastome cérébelleux. / Children treated for cerebellar medulloblastoma may have cognitive impairment, particularly in working memory, perturbing their school performance.A better understanding of anatomo-functional background of the cerebellum and its involvement in working memory are essential to minimize treatment side effects and to improve the patients' quality of life. A French multicenter study was therefore conducted.The objectives of this thesis were: (i) To conduct a clinico-radiological study in the patients by comparing the neuropsychological data with resected cerebellar lesions identified by anatomical MRI; (ii) To map the involvement of the cerebellum in working memory by fMRI BOLD; (iii) To map cortical reorganization of patients at the same working memory tasks by fMRI BOLD. For this, N-back tasks, following a factorial design modulated in sensory modality (visual or auditory) and in nature of information (verbal or nonverbal) to memorize, were used. In the introduction of this thesis, a comprehensive review of the literature on the contributions of new MRI methods is intended to explore the cognitive disorders in children treated for medulloblastoma.Two comparative case-control phases of this study were performed upon right-handed subjects:• The first study was conducted by 1.5T MRI with 1-back tasks. Twelve healthy subjects and 9 patients were included, but 4 patients and 4 healthy subjects were secondarily excluded, mainly because of excessive movement and technical problems. FMRI analysis was therefore focused on 8 healthy subjects (4 males, 11.1 1.9 year olds) and 5 patients (5 boys, 11.91.0 year olds).• The second study was carried out by 3T MRI with 2-back tasks. Fifteen healthy subjects and 3 patients were included, however, 6 healthy subjects were excluded due to anxiety, precocity and technical problems. FMRI analysis was applied in 9 healthy subjects (7 boys, 11.6±2.2 year olds) and 3 patients (1 boy, 14 ± 0.6 year olds).The results demonstrated: (i) the existence of visuo-spatial WM disorders in the patients; (ii) the existence of macroscopic lesions in the left posterior cerebellar lobe in patients; (iii) the involvement of the left posterior cerebellar lobe during nonverbal WM tasks and the involvement of the right posterior cerebellar lobe during verbal WM tasks in healthy subjects; (iv) the cerebral implication (prefrontal cortex, parietal and temporo-occipital) during WM tasks in the patients suggests the cortical reorganization. To conclude, this work highlights the importance of the left posterior cerebellar lobe in non-verbal WM of right-handed children. This information should be taken into account for the planning procedure in children operated for cerebellar medulloblastoma.

Médulloblastome

Mémoire de travail

IRMf

Cervelet

Enfant

Médulloblastoma

Working memory

FMRI

Cerebellum

Children

610

Modulação da produção de óxido  nítrico por melatonina em cultura de células de cerebelo / Melatonin modulates nitric oxide production in cerebellum cells culture

Franco, Daiane Gil

21 May 2010

A melatonina, um derivado da serotonina, é o principal produto da glândula pineal. Pode ser produzida também por diversas células e tecidos extrapineais, como retina, trato gastrointestinal, células do sistema imunológico, entre outros. Nos mamíferos exerce diferentes papéis, sendo que, classicamente, é conhecida por atuar como mediadora química da fase escura. A liberação rítmica desse hormônio para a corrente sanguínea e para o líquido cefalorraquidiano marca o ciclo claro-escuro e as estações do ano para os órgãos internos. Além disso, a melatonina atua como moduladora do sistema imunológico e da inflamação, agente citoprotetora e antioxidante. Os mecanismos de ação também são diversos e variam desde receptores de membrana às interações intracelulares. No presente trabalho mostramos que a melatonina inibe a produção de NO ativado por ACh ou BK em cultura de células granulares de cerebelo. Esses agonistas ativam as NOS constitutivas, que são dependentes do aumento de Ca2+ intracelular. A melatonina também bloqueia o aumento de Ca2+ intracelular induzido por ACh, sugerindo que, o efeito dessa indolamina sobre a produção de NO ativado por ACh é, provavelmente, um efeito sobre o aumento de Ca2+ intracelular. Lipopolissacarídeo da parede de bactéria gram-negativa ativa a transcrição da isoforma induzida NOS. A melatonina inibe a expressão dessa enzima e a produção de NO induzidas pela endotoxina bacteriana. Nossos resultados indicam que esses efeitos são dependentes da inibição da via do fator de transcrição NFKB. Em resumo, o presente trabalho mostra que a melatonina inibe a atividade da NOS constitutiva e a expressão da NOS induzida. Esses efeitos são dependentes de mecanismos específicos e devem estar relacionados às diferentes funções celulares. / Melatonin, a serotonin derivative, is the main product of the pineal gland. Can also be produced by various extra¬pineal sites as retina, gastrointestinal tract, immune cells, among others. In mammals it has different roles, and, classically, is known to act as a chemistry mediator of the darkness. The rhythmic release of this hormone into the blood and cerebrospinal fluid marks the light¬dark cycle and the seasons to the internal organs. Moreover, melatonin acts as a modulator of the immune system and inflammation, a cytoprotective agent and reduces free radicals formation. The mechanisms of action are also diverse and vary from membrane receptors to intracellular interactions. Here we show that melatonin inhibits the production of NO activated by ACh or BK in cultured cerebellar granule cells. These agonists activate constitutive NOS, which are dependent on increased intracellular Ca2+. Melatonin also blocks acetylcholine-induced Ca2+ intracellular increase, suggesting that, this indolamine effects on NO production activated by ACh is, probably, an effect on the increase of intracellular Ca2+. Lipopolysaccharide of gram¬negative bacteria wall activates the transcription of inducible NOS isoform. Melatonin inhibits the enzyme expression and NO production in granule cerebellar cells activated with the bacterial endotoxin. Our data shows that these effects are dependent on inhibition of nuclear factor kappa B pathway. In summary, the present work shows that melatonin inhibits constitutive NOS activity and inducible NOS expression. These effects are dependent on specific mechanisms and should be related to different cellular functions.

Células granulares

Cerebellum

Cerebelo

Granules cells

Melatonin

Melatonina

Nitric oxide

Óxido nítrico

Ontogênese de conexinas no cerebelo. / Ontogenesis of connexins in the cerebellum.

Guedes, Vivian de Alvarenga

27 July 2012

As junções comunicantes formadas por conexinas (Cx) ligam o citoplasma de células adjacentes e permitem a passagem de moléculas e íons entre elas. No sistema nervoso, esses canais constituem as sinapses elétricas e são fundamentais para a fisiologia glial. No desenvolvimento, as conexinas estão envolvidas nos processos de migração, proliferação e diferenciação celular. Caracterizamos a expressão gênica (RNAm) e protéica de duas importantes conexinas no cerebelo de aves: Cx36 (neuronal) e Cx43 (glial). Houve um aumento protéico e na expressão de RNAm tanto para a Cx36 quanto para a Cx43. Para a Cx43 esse aumento foi associado a sinaptogênese. A Cx36 foi observada em estágios mais precoces, na camada proliferativa cerebelar. No cerebelo pós-natal, A Cx36 foi observada nos dendritos das células de Golgi. A Cx43 encontra-se principalmente em astrócitos da camada granular e substância branca. Em conclusão, nós observamos uma padrão de expressão espaço-temporal distinto entre as duas conexinas, relacionado a papéis específicos na função de desenvolvimento cerebelares. / Gap junction channels composed of connexins (Cxs) connect the cytoplasm of adjacent cells and allow the flow of ions and molecules between them. In the nervous system, these channels constitute the electrical synapses and are fundamental for the glial physiology. In the development, Cx channels are involved in the processes of cell proliferation, migration and differentiation. We characterized the gene (mRNA) and protein expression of Cx36 (neuronal) and Cx43 (glial) in the embryonic and postnatal avian cerebellum. Cx36 and Cx43 mRNA and protein levels were upregulated during development. For Cx43 this increase was clearly associated with the synaptogenesis process. Cx36 was observed in earlier stages, localized in the cerebellar proliferative layer. In the postnatal period, Cx36 was observed in the dendrites of Golgi cells. Cx43 was localized in the astrocytes of the grey and white matter. In conclusion, we observed a distinct spatio-temporal expression pattern for Cx36 and Cx43, wich is likely related to particular roles in cerebellar development and function.

Cell differentiation

Cell proliferation

Cerebellum

Cerebelo

Conexinas

Connexins

Diferenciação celular

Ontogenia

Ontogeny

Proliferação celular

Avaliação temporal da expressão gênica e proteica de S100b no encéfalo de ratos neonatos submetidos à anóxia. / Assessment of S100b gene and protein expression over time in the brain of newborn rats subjected to anoxia.

Hamasaki, Mike Yoshio

27 January 2014

O presente trabalho objetivou explorar a eventual variação da expressão do mRNA e da proteína S100b no hipocampo, cerebelo e córtex cerebral de ratos neonatos em condições de anóxia, comparativamente à condições controle. Este estudo foi desenvolvido em ratos albinos, divididos em dois grupos: o grupo Experimental Anóxia (EA) e o grupo Experimental Controle (EC), que por sua vez foram subdivididos em tempos de 2, 4, 6, 12 e 24 horas no que se refere à coleta de amostras após a aplicação dos estímulos pré-estabelecidos para cada grupo. Dos períodos avaliados, nossos resultados indicaram que a anóxia proporcionou um pico na expressão gênica de S100b após duas horas e proteica após 4 horas nas áreas do hipocampo e cerebelo. O córtex cerebral do grupo EA quando comparado ao grupo EC, não apresentou nenhum aumento significante de S100b nos períodos avaliados. Os resultados obtidos contribuem de forma crucial para elucidação do papel da proteína S100b como biomarcadora na EHI, bem como no esclarecimento parcial da função deste gene com relação à fisiopatologia da doença. / The aim of the present study was to investigate the temporal variation in the expression of S100b mRNA and protein in the hippocampus, cerebellum, and cerebral cortex of newborn rats under conditions of anoxia compared with control rats. The study was performed using two groups albino rats: Experimental Anoxia (EA) and Experimental Control (EC). The animals in both EA and EC were distributed in the following subgroups relative to the time elapsed since the application of the stimuli predefined for each group: two, four, six, 12, and 24 hours. Anoxia induced a peak in the S100b gene expression after two hours and protein expression after 4 hours in the hippocampus and cerebellum. With respect to the cerebral cortex, S100b never exhibited a significant increase in the EA group compared with the EC group. The results of the present study represent a crucial contribution to the elucidation of the role protein S100b plays as a biomarker in HIE, as well as a contribution to the elucidation of the role the corresponding gene plays in the physiopathology of the disease.

Biomarcador

Biomarker

Cerebellum

Cerebelo

Cerebral cortex

Córtex cerebral

Encefalopatia hipóxico-isquêmica

Hipocampo

Hippocampus

Hypoxic-ischemic encephalopathy

DNA Binding Activities in Cerebellar Granule Cell Neurons Recognizing the Promoter for The GABA(A)-alpha6 Receptor Subunit

Stock, Rachel E.

22 August 2002

"The objective of this thesis project was to begin identifying which regulatory transcription factors are involved in the up-regulation of the gene promoter for the Ą6 subunit of the gamma-alpha-butyric acid (GABAA-Ą6) receptor in cerebellar granule cell neurons (GCNs). Although a 150 base pair sequence proximal to the GABAA-Ą6 gene promoter had been characterized previously using electrophoretic mobility shift assays (EMSAs), the specific transcription factor(s) needed to express the GABAA-Ą6 gene had not been examined. This project utilized EMSAs to investigate this 150 base pair sequence further. It was found that when this sequence proximal to the gene promoter was divided into two overlapping halves, both shortened sequences were able to compete for binding with nuclear extracts. The full-length sequence was further divided into six sub-regions, and double-stranded competitors were generated from synthetic oligonucleotides. The only oligonucleotide to compete was the one that corresponded to the region of overlap between the left and right halves. This overlap region contains consensus sites for OCT-1, STAT, and the regulatory transcription factor NF-1. An NF-1 consensus sequence was able to compete DNA-protein complexes. Supershift assays showed that a xenopus NF-1 antibody, previously shown to compete in gel shift assays, caused a mobility shift of the DNA-probe complex. Analysis of extracts from granule cell neurons, cultured from 0 to 6 days in vitro (DIV) indicated NF-1 to be present all time points. Northern analyses were performed using probes for NF-1A, NF-1B, NF-1C and NF-1X. NF-1A transcripts were observed from 0 to 6 DIV, while NF-1B and NF-1X transcripts were present at 2 and 4 DIV. NF-1C RNA was barely detectable at any time point."

NF-1

granule cell neuron

Genetic regulation

Transcription factors

Electrophoresis

Cerebellum

Etude du réceptosome du récepteur pré-synaptique métabotropique glutamatergique de type 4 (mGluR4) natif dans le cervelet de rat / Study of the receptosome of the presynaptic metabotropic glutamatergic receptor of type 4 (mGluR4) in the rat cerebellum

Ramos, Cathy

18 November 2011

Aux synapses Fibres Parallèles - Cellules de Purkinje, le récepteur mGluR4 est le seul mGluR du groupe III à moduler la neurotransmission en inhibant les influx calciques qui régulent la libération de glutamate. Dans des systèmes hétérologues, il a été montré que mGluR4 était lié à des protéines G de type Gi/o couplées négativement à l'adénylate cyclase (AC). Afin de rester au plus proche des interactions physiologiques, nous avons débuté notre étude par la définition du réceptosome des récepteurs mGluR4 natifs dans le cervelet de rat. Nous avons identifié 184 partenaires putatifs du récepteur. Afin de confirmer ces interactions, mais aussi de recenser d'autres interacteurs éventuels, nous avons réalisé une approche complémentaire et indépendante de chromatographie d'affinité. Nombre de protéines ont été retrouvées par cette deuxième approche, en particulier des protéines appartenant aux familles de l'exocytose et du trafic cellulaire. Nos résultats suggèrent que le contrôle de la neurotransmission par mGluR4 pourrait s'effectuer, au moins partiellement, par une interaction avec ce type de protéines. D'autre part, nos approches biochimiques n'ont pas mis en évidence de protéines de la voie AC, mais au contraire plusieurs protéines identifiées appartiennent à la voie Phospholipase C/ Protein Kinase C (PLC/PKC). Ces résultats biochimiques corroborent certains résultats fonctionnels du laboratoire et ouvrent de nouvelles pistes quant à la modulation négative de la neurotransmission par les récepteurs mGluR4 natifs dans le cervelet / At Purkinje Cell - Parallel Fiber synapses, mGluR4 receptors are the only glutamatergic metabotropic receptors of group III to modulate glutamatergic transmission by inhibiting calcium presynaptic influx controlling glutamate release. In heterologous systems, mGluR4 has been shown to activate G proteins of type Gi/o that would be negatively linked to adenylate cyclase (AC). In order to conserve most of physiological interactions, we first studied the receptosome of native mGluR4 in rat cerebellum. We identified 184 putative partners of the receptor. Moreover, in order to confirm these interactions, but also to find other partners, we decided to perform an independent and complementary approach of chromatography affinity. Numerous proteins have been found by this method, particularly proteins belonging to exocytosis and cellular trafficking families. Our results suggest that a partial control of neurotransmission could be due to interaction of mGluR4 with these kinds of proteins. On the other hand, biochemical approaches did not reveal interactions of mGluR4 with some proteins belonging to AC pathway, but with proteins of PLC/PKC pathway. These results are consistent with some functional studies of our lab and gave the way for elucidating the native molecular mechanisms of the cerebellar neurotransmission modulation by mGluR4.

Cervelet

Exocytose

Protéomique

Cerebellum

Exocytosis

Metabotropic glutamate receptor

Proteomic