P300 em indivíduos com transtorno de processamento auditivo (central) submetidos a treinamento auditivo / P300 in individuals with (central) auditory processing disorder submitted to auditory training

Renata Alonso

01 September 2008

INTRODUÇÃO: Os Potenciais Evocados Auditivos, associados à avaliação comportamental, podem ser uma ferramenta útil no diagnóstico e no monitoramento das mudanças ocorridas no Sistema Nervoso Auditivo Central em indivíduos com Transtorno de Processamento Auditivo (Central) submetidos a Treinamento Auditivo. OBJETIVOS: Os objetivos deste estudo foram caracterizar o P300 em crianças com Transtorno de Processamento Auditivo (Central) e verificar a evolução dos achados deste potencial frente ao Treinamento Auditivo. MÉTODOS: Participaram do estudo 29 indivíduos com Transtorno de Processamento Auditivo (Central) (Grupo Estudo) e 29 indivíduos sem Transtorno de Processamento Auditivo (Central) (Grupo Controle) com idades entre oito e 16 anos. Todos os indivíduos foram submetidos à avaliação inicial do processamento auditivo (central) e a uma primeira gravação do P300. O Grupo Estudo foi submetido a um programa de Treinamento Auditivo em cabina acústica durante oito sessões e, um mês após o término deste período, foi realizada nova avaliação do processamento auditivo (central) e nova gravação do P300. O Grupo Controle foi submetido a uma nova avaliação do P300 após três meses da avaliação inicial. RESULTADOS: Para os testes comportamentais, houve diferença estatisticamente significante em todos os testes quando comparados o Grupo Estudo ao Grupo Controle e nas situações pré e pós Treinamento Auditivo do Grupo Estudo. Quando comparados os dados eletrofisiológicos do Grupo Estudo antes e após o Treinamento Auditivo, houve diferença estatisticamente significante para a latência da onda P300. No Grupo Controle, não foram encontradas diferenças estatisticamente significantes nos dados eletrofisiológicos entre a avaliação inicial e a final. Na comparação entre o Grupo Estudo e o Grupo Controle antes do Treinamento Auditivo, houve diferença estatisticamente significante nas medidas de latência e de amplitude e, após o Grupo Estudo ser submetido ao Treinamento Auditivo, houve diferença estatisticamente significante apenas na amplitude entre os dois grupos. CONCLUSÕES: O P300 mostrou-se um instrumento útil no diagnóstico e no monitoramento da reabilitação de crianças com Transtorno de Processamento Auditivo (Central). / INTRODUCTION: Auditory Evoked Potentials associated to behavioral assessment may be a useful tool for the diagnosis and monitoring of changes in the Auditory Central Nervous System of individuals with (Central) Auditory Processing Disorder submitted to Auditory Training. AIM: The aims of this study were to characterize the P300 of children with (Central) Auditory Processing Disorder and to verify the improvement of this potentials findings after the Auditory Training. METHOD: 29 individuals with (Central) Auditory Processing Disorder (Study Group) and 29 individuals without (Central) Auditory Processing Disorder (Control Group), ranging in age from eight to 16 years old took part in this study. All of them underwent the initial assessment of (Central) Auditory Processing and a first recording of P300. The Study Group underwent an Auditory Training program in acoustic booth during eight sessions, and a month after the end of this period, a new (Central) Auditory Processing assessment and a new recording of P300 were performed. The Control Group underwent a new recording of P300 three months after the initial assessment. RESULTS: Significant statistical differences were found in all behavioral tests when the Study Group was compared to the Control Group, and in the pre and post Auditory Training situations of the Study Group. When the electrophysiological data of the Study Group was compared before and after the Auditory Training, there was a significant statistical difference for the latency of wave P300. In the Control Group, no significant statistical differences were found between the initial and the final assessments. Comparing the Study Group and the Control Group before the Auditory Training, it was observed a significant statistical difference concerning measures of latency and amplitude, and after the Auditory Training of the Study Group, it was observed a significant statistical difference between the two groups only regarding the amplitude. CONCLUSIONS: P300 showed to be a useful instrument for the diagnosis and monitoring the rehabilitation of children with (Central) Auditory Processing Disorder

Plasticidade neuronal

Potencial evocado P300

Resultado de tratamento

Transtornos da percepção auditiva

Auditory perceptual disorders

Event-related potentials P300

Neuronal plasticity

Treatment outcome

Análise morfoquantitativa e ultraestrutural dos componentes do plexo mioentérico do intestino delgado de ratos submetidos à dieta padrão de Moçambique nos períodos pré e pós-natal / Morphoquantitative and ultrastructural analysis on the myenteric plexus components of the rats small intestine with standard Mozambique diet in the pre and postnatal period

Aline Rosa Marosti

16 June 2016

Admite-se que mais de 40% das crianças são acometidas pela desnutrição crônica em Moçambique (África Oriental). A doença pode estar relacionada, entre outros fatores, à qualidade da dieta que é oferecida à população, já que é bastante precária, pois exibe sérias deficiências de ferro, gordura e, principalmente, proteína animal em sua composição. Essa insuficiência proteica poderia acarretar em prejuízo ao desenvolvimento do organismo, pois a proteína animal é considerada uma boa fonte de aminoácidos essenciais, em decorrência de sua maior digestibilidade e absorção no intestino delgado, quando comparadas às fontes de origem vegetal. Na presente pesquisa foi reproduzida em laboratório, a dieta básica da população de Moçambique (DM), com o objetivo de avaliar seus efeitos nos componentes do plexo mioentérico e na mucosa dos segmentos do intestino delgado de ratos Wistar. Para isso, os animais foram divididos nos grupos Controle, com dieta AIN-93G com adição de 20% de caseína (NN21 e NN42); Dieta de Moçambique (DM21 e DM42) e Dieta Moçambique suplementada, acrescida de 20% de caseína (NM21 e NM42); e grupo Renutrido (RM42), composto por animais do grupo DM21 que, a partir do 22º dia, receberam a dieta NM até atingirem 42 dias de vida. Os segmentos foram coletados e submetidos às técnicas histoquímicas da NADH-diaforase e da NADPH-diaforase para evidenciação de neurônios do plexo mioentérico; histológicas (HE, Picro-sírius, Weigert) para avaliação da parede intestinal, mucosa, gânglios e seu tecido conjuntivo associado; de microscopia eletrônica de varredura (MEV) para observação da estrutura da mucosa; e de microscopia eletrônica de transmissão (MET) para a ultraestrutura dos componentes ganglionares. Estatisticamente, o peso corporal e o comprimento dos animais submetidos à dieta de Moçambique estavam abaixo dos valores encontrados para os animais controle. Na análise qualitativa, observou-se a presença de fibras elásticas, elaunínicas e oxitalânicas, assim como predominância de fibras colágenas do tipo I nos grupos NN42 e DM42, e do tipo III nos grupos NM42 e RM42 ao redor dos gânglios. A mucosa apresentou uma menor área no grupo DM21 com recuperação em DM42, com diminuição da altura das vilosidades nos dois grupos. Foram observadas alterações na organização do retículo endoplasmático rugoso e disposição dos materiais fibrilares e granulares do nucléolo dos animais DM. Sob MEV as vilosidades do grupo DM42 apresentaram superfície mais lisa, com poucas delimitações entre elas. A densidade dos neurônios reativos à NADH diminuiu de 21 para 42 dias em todos os grupos; porém, o DM21 e DM42 apresentou uma maior densidade. Os neurônios reativos à NADPH apresentaram a diminuição da densidade de 21 para 42 dias nos grupos DM e NM, quando comparados ao controle. Assim, conclui-se que a dieta vegetal de Moçambique levou à alterações na morfologia da mucosa, parede intestinal e neurônios entéricos, como uma forma de adaptação à dieta imposta / It is assumed that more than 40% of children are affected by chronic malnutrition in Mozambique (East Africa). The disease may be related, among other factors, the quality of diet that is offered to the population, since it is quite precarious, because it displays serious deficiencies of iron, fat and especially animal protein in their composition. This protein failure could result in damage to the development of the organism, as animal protein is considered a good source of essential amino acids, due to its higher digestibility and absorption in the small intestine when compared to vegetable sources. In this research has been reproduced in the laboratory, the staple diet of the population of Mozambique (DM), in order to evaluate its effects on components of the myenteric plexus and the mucosa of the small intestine segments of Wistar rats. For this, the animals were divided into control groups with AIN-93G diet with the addition of 20% casein (NN21 and NN42); Diet Mozambique (DM21 and DM42) and diet supplemented Mozambique, plus 20% casein (NM21 and NM42); and Refeeding group (RM42), consisting of the animals DM21 group, from the 22th day, given NM diet until they reached 42 days of life. The segments were collected and submitted to histochemical techniques of NADH-diaphorase and NADPH-diaphorase for disclosure of neurons of the myenteric plexus; histologic (HE, Sirius red, Weigert) for evaluation of the intestinal wall, mucosa, lymph nodes and its associated connective tissue; scanning electron microscopy (SEM) for observation of mucosal structure; and Transmission electron microscopy (TEM) ultrastructure to ganglion components. Statistically, body weight and length of the animals submitted to Mozambique diet were below the values found for control animals. Qualitative analysis showed the presence of elastic fibers, and elauninic oxytalan, and predominance of type I collagen fibers in the NN42 and DM42 groups, and type III in the NM42 and RM42 groups around the ganglia. The mucosa showed a smaller area in DM21 group recovery DM42, with a decrease in villus height in both groups. There have been changes in the organization of the rough endoplasmic reticulum and arrangement of fibrillar and granular materials nucleolus of DM animals. Under SEM the villi of the DM42 group showed smoother surface, with few boundaries between them. The density of reactive NADH decreased from 21 to 42 days in all groups; however, the DM21 and DM42 had a higher density. Reactive neurons to NADPH had decreased from 21 to 42 days density in DM and NM groups when compared to the control. Thus, it is concluded that vegetable diet Mozambique led to changes in the morphology of the mucosa, the intestinal wall and enteric neurons, as a way to adapt to the imposed diet

Desnutrição

Intestino delgado

Motilidade gastrointestinal

Plasticidade neuronal

Plexo mientérico

Sistema nervoso entérico

Enteric nervous system

Gastrointestinal motility

Intestine small

Malnutrition

Myenteric plexus

Neuronal plasticity

Efeitos das células de schwann cultivadas e tratadas com o pedf no trofismo de neurônios medulares cultivados e na recuperação motora de ratos submetidos ao trauma contuso da medula espinal pelo impactor / Effect of the cells of Schwann cultivated and treated with the PEDF in the trophism to spinal cord neurons cultivated and in the motor recovery of rats submitted to the trauma contused of the spinal cords for the Impactor

Beatriz de Freitas Azevedo Levy

19 August 2008

O presente estudo objetivou a avaliação do potencial regenerativo e trófico das CS e do fator neurotrófico PEDF sobre os neurônios da medula espinal através da cultura destas células in vitro assim como no modelo experimental da lesão medular contusa in vivo. CS foram cultivadas a partir de fragmentos de nervo ciático de ratos adultos jovens. As culturas primárias foram purificadas e utilizadas em experimentos in vitro e in vivo. Para avaliar se a cultura de CS tratadas com o PEDF proporciona o trofismo dos neurônios da medula espinal, estes foram cultivados a partir de fragmentos da medula espinal de ratos Wistar neonatos e tratados com o meio condicionado das CS (MCCS) pré-tratadas ou não com formas específicas do PEDF. A resposta trófica foi estudada através da quantificação do número de células bem como da área dos prolongamentos e dos corpos celulares dos neurônios cultivados sobreviventes no decurso temporal da cultura, utilizando-se método estereológico específico. Em outra série de experimentos, Ratos Wistar adultos foram submetidos à lesão medular contusa no 10º-11° segmento torácico pelo sistema NYU Impactor e tratados com inoculações locais de CS e do seu meio condicionado na presença ou não do PEDF. Ao término do procedimento cirúrgico, os ratos foram submetidos aos testes do comportamento BBB, CBS durante 6 semanas. Os tratamentos aplicados à cultura de neurônios da medula espinal demonstraram que o MCCS, pré-tratado ou não com diferentes formas moleculares do PEDF e os fatores por si só possuem ações tróficas e plásticas em relação aos neurônios da medula espinal. Foi observado que o MCCS exerceu um efeito de arborização e de trofismo sobre o corpo neuronal dos neurônios medulares, sendo que este efeito foi potencializado quando o MCCS foi obtido a partir de CS pré-tratadas com os fatores nPEDF ou coPEDF, e de intensidade ainda maior quando as formas puras dos fatores em questão foram adicionadas à cultura. Os animais submetidos ao trauma contuso da medula espinal que foram tratados com a inoculação das CS, pré-tratadas ou não com o nPEDF, do meio condicionado destas células e dos fatores nPEDF e coPEDF apresentaram melhor recuperação funcional em relação ao grupo controle. A partir dos dados obtidos neste trabalho pode-se dizer que as CS, seu meio condicionado e o PEDF possuem ações importantes sobre os neurônios da medula espinal, possibilitando a modulação do processo de recuperação funcional deste órgão após o trauma. / The present study aimed the assessment of the trophic and regenerative potential of the Schwann cells (SC) and of the neurotrophic factor PEDF on the spinal cord neurons by means of cultures of those cells in vitro as well as in an experimental model of a contused spinal cord lesion in vivo. SC were cultivated from sciatic nerves fragments of young adult rats. The primary cultures were purified and used in in vitro and in vivo experiments. To evaluate if the SC cultures treated with PEDF provide the trophism of the spinal cord neurons, these were cultivated from spinal cords fragments of new born rats and treated with SC conditional medium (SCCM), of cells pre-treated or not with specifics isoforms of PEDF. The trophic responses were analyzed by the quantification of the cell number, and the area of sprounting and perycaria of the survived neuronal cells in the culture time course using a specific stereological method. In another series of experiment, adults Wistar rats were submitted to a contuse spinal cord lesion in the 10º-11º thoracic level by means of the NYU Impactor and treated with local injection of SC and your CM with the presence or not of the PEDF. In the end of the surgical procedure, the rats were submitted to behaviors testes as the BBB and the CBS during the 6 follow weeks .The spinal cord neuron treatments show that the SCCM, prétreated or not with specifics molecular isoforms of PEDF and this factors by themselves demonstrated trophic and plastic actions with the spinal cord neurons. It was observed that the SCCM exerted a sprouting and trophic effect on the neuronal body of the spinal cord neurons, and that this effect was enhanced when the SCCM was achieved from SC pre-treated with PEDF, and even better when the pures forms of the PEDF was added to the culture. The animals that received the spinal cord lesion and were treated with injection of SC, pre-treated or not with nPEDF, or with the conditioned medium of those cells and the factors nPEDF or coPEDF showed a better functional recovery when compared to the control groups. The results of this study showed that the SC, your conditioned medium and the PEDF play an important role in the spinal cord neurons, allowing the modulation of the functional recovery process of this organ after the trauma.

Células de Schwann

Lesão medular

Neurônios

Neuroplasticidade

Trofismo

Neuronal plasticity

Neurons

Pigment epitelium-derived factor

Schwann cells

Spinal cord (wounds and injuries)

Trophism

Análise dos mecanismos de neuroplasticidade na porção lombar da medula espinal do rato submetida à lesão isquêmica fototrombótica e tratada pela injeção local de PEDF / Analysis of neuroplasticity mechanisms in lumbar levels of the rat spinal cord submitted to photothrombotic ischemia and treated with local injection of PEDF

Chary Ely Martin Marquez Batista

26 March 2012

O fator derivado do epitélio pigmentado (PEDF) é um fator neurotrófico que possui um grande potencial trófico nos neurônios motores da medula espinal, bem como é capaz de modular o microambiente da lesão. Desta forma, analisamos a capacidade do tratamento com PEDF em promover a neuroplasticidade da medula espinal após lesão isquêmica. Ratos Wistar adultos foram submetidos à lesão medular isquêmica do tipo fototrombótica, segundo o método de Rose Bengal, na altura do 11° segmento torácico e foram imediatamente tratados com inoculação local de PEDF (grupo PEDF) ou solvente (grupo Salina). Ratos submetidos à cirurgia simulada (grupo Sham) receberam a injeção do solvente. Ao término do procedimento cirúrgico, os ratos foram submetidos a testes neurofuncionais durante 6 semanas. Após esse período, os animais sofreram eutanásia e o tecido medular foi dividido entre as técnicas de imunoistoquímica, western blot e PCR em tempo real. Foi analisada na região lombar anterior da medula espinal a modulação das CSPGs, a expressão dos fatores neurotróficos NT-3, GDNF, BDNF e FGF-2, bem como os níveis das moléculas associadas à angiogênese e apoptose (laminina e Bcl-2), das proteínas relacionadas à neuroplasticidade (MAP-2, GAP-43 e sinaptofisina) e do sistema Eph/efrina e a RhoA, que são capazes de modular o crescimento de fibras. Os resultados mostraram uma recuperação parcial e espontânea do comportamento sensório-motor dos animais que foram submetidos à lesão fototrombótica, onde o tratamento com PEDF foi capaz de potencializar alguns desses parâmetros. A análise da região lombar anterior da medula espinal, caudal à lesão, mostrou uma diminuição das CSPGs nos dois grupos lesados, o que pode ter favorecido os eventos de neuroplasticidade. O tratamento com PEDF foi capaz de promover a regulação dos fatores neurotróficos NT-3 e GDNF, diminuir a angiogênese local (diminuição da laminina) e potencializar o processo de neuroplasticidade (aumento da MAP-2) nessa região. A lesão medular isquêmica foi capaz de modular a expressão do receptor EphA4 e da efrina-B1 e o tratamento com PEDF possivelmente regulou o estado de ativação da efrina-A2 e da efrina-B3 e certamente modulou a ativação da efrina-B2. Ainda, os receptores Eph e as efrinas foram observados diferentemente nos neurônios e astrócitos. Nossos resultados confirmam a capacidade plástica da medula espinal após lesão e mostra que o tratamento com PEDF foi capaz de potencializar esse processo / The pigment epithelium derived factor (PEDF) is a neurotrophic factor that has a great trophic potential in the motor neurons of the spinal cord, and is able to modulate the lesion microenvironment. We analyzed the capacity of the treatment with PEDF to promote the neuroplasticity after ischemic spinal cord injury. Adult male Wistar rats were underwent to photothrombotic ischemic spinal cord injury, according to the Rose Bengal method, at the level of 11° thoracic segment, and were immediately treated with local injection of PEDF (PEDF group) or solvent (Saline group). Rats underwent to a sham surgery (Sham group) received solvent injection. At the end of surgery, the rats were submitted to neurofunctional tests during 6 weeks. After this period, the animals were euthanized, and the anterior lumbar region of the spinal cord tissue was submitted to immunohistochemistry, western blot and real-time PCR analyses. The inhibitory response of CSPGs, the expression of neurotrophic factors (NT-3, GDNF, BDNF and FGF-2), the molecules associated with angiogenisis and apoptosis (laminin and Bcl-2), the proteins related to neuroplasticity (MAP-2, GAP-43 and synaptophysin), as well the Eph/ephrin system and the RhoA, which is able to modulate the fibers growth, were evaluated. The results showed a spontaneous, and parcial, recovery of the sensory motor behavior of the animals that were underwent to a photothrombotic injury, and the treatment with PEDF was able to potentiate some of these parameters. The analysis of the anterior lumbar region of the spinal cord, caudally to the lesion, showed a decrease of CSPGs, which may have favored the neuroplasticity events. The treatment with PEDF was able to promote the regulation of NT-3 and GDNF, as well the reduction of laminin and the increase of MAP-2 in that region. In relation to the Eph/ephrin system, the ischemic spinal cord injury was able to modulate the EphA4 receptor and ephrin-B1 expression, and the treatment with PEDF possibly regulated the activation state of ephrin-A2 and ephrin-B3 and certainly modulated the ephrin-B2 activation. Eph receptors and ephrins have been found specifically in neurons and astrocytes. Our results confirmed the plastic capacity of the spinal cord after injury and showed that the treatment with PEDF was able to enhance this process

Lesão isquêmica fototrombótica

Medula espinal

PEDF

Plasticidade neuronal

Ratos Wistar

Sistema Eph/efrina

Eph/ephrin system

Neuronal plasticity

PEDF

Photothrombotic ischemic injury

Spinal cord

Wistar rats

Bases neurobiologiques des troubles de l'humeur et de la cognition associés à l'obésité : rôle de l’inflammation / Neurobiological basis of mood and cognitive alterations associated with obesity

Fourrier, Celia

16 December 2016

L’obésité est une maladie associée à des altérations métaboliques et inflammatoires et constitue un facteur de risque important de développer des comorbidités telles qu’un diabète de type 2. De plus, la prévalence de troubles de l’humeur et de la cognition est élevée chez les sujets obèses. Ces troubles neuropsychiatriques compliquent la prise en charge de l’obésité, contribuent à son aggravation et peuvent à terme favoriser le développement des comorbidités associées. Diminuer le développement de ces troubles pourrait donc permettre d’améliorer la santé et la qualité de vie des individus obèses. Dans ce contexte, l’objectif de cette thèse a été de comprendre les mécanismes neurobiologiques sous-tendant l’apparition de ces troubles neuropsychiatriques, dans le but d’identifier de nouvelles cibles potentielles pour le développement de stratégies préventives et/ou thérapeutiques visant à les réduire. Dans ce but, des modèles animaux d’obésité tels que la souris db/db, qui présentent une obésité sévère associée à des altérations caractéristiques du syndrome métabolique, peuvent être particulièrement utiles.[ ]Dans un premier temps, nous avons montré qu’une restriction calorique ou un traitement anti-inflammatoire diminuait les comportements de type anxieux chez la souris db/db. Cette amélioration était associée à une diminution sélective de l’expression génique du TNF-α dans l’hippocampe, ce qui suggère une contribution de cette cytokine pro-inflammatoire dans les comportements de type anxieux associés à l’obésité. Nous avons ensuite confirmé cette hypothèse en montrant que le blocage sélectif du TNF-α cérébral par administration i.c.v. d’étanercept (un récepteur leurre du TNF-α) diminuait les comportements de type anxieux chez les souris db/db. De façon intéressante, des mesures électrophysiologiques ont permis de montrer que cette amélioration des comportements émotionnels par l’étanercept impliquait la modulation de l’activité spontanée des neurones dans l’hippocampe ventral, région connue pour son rôle dans la régulation des émotions. Dans un second temps, nous avons essayé d’identifier de nouvelles stratégies préventives et/ou thérapeutiques pour améliorer l’humeur et la cognition chez les sujets obèses. Nous avons donc évalué l’effet d’un régime enrichi en acides gras polyinsaturés de type n-3 et antioxydants sur les altérations comportementales des souris db/db. En effet, ces nutriments sont connus pour moduler différents paramètres neurobiologiques impliqués dans la régulation du comportement. Nous avons montré que la consommation chronique de ce régime supprimait les déficits de mémoire spatiale dépendante de l’hippocampe chez les souris db/db dans le test de la piscine de Morris et que cette amélioration cognitive était probablement sous-tendue par des changements de plasticité neuronale. Enfin, nous avons évalué si des manipulations du microbiote intestinal pouvaient représenter une stratégie préventive et/ou thérapeutique pour améliorer les altérations neuropsychiatriques associées à l’obésité. Nous avons donc mesuré l’impact d’une manipulation du microbiote intestinal par des prébiotiques sur les altérations métaboliques et comportementales des souris db/db, mais également sur les systèmes biologiques et neurobiologiques auxquels elles sont associées. Nous avons montré que les améliorations métaboliques induites par l’administration de prébiotiques chez la souris db/db étaient accompagnées d’une diminution de l’inflammation périphérique et centrale. [ ] Pour conclure, ces expériences contribuent à montrer que l’inflammation, en particulier le TNF-α, pourrait être une cible importante pour le développement de traitements visant à améliorer les troubles de l’humeur chez les sujets obèses ; alors que des interventions nutritionnelles avec des nutriments d’intérêt pourrait plutôt aider à protéger des altérations métaboliques et/ou cognitives chez ces patients. / Obesity is a metabolic and inflammatory disorder that represents a major risk factor for the development of comorbidities such as type 2 diabetes. Obese patients also often experience mood and cognitive dysfunctions that represent important risk factors for aggravation of obesity and related outcomes. Reducing the development of such alterations may therefore allow improving health and quality of life of obese subjects. In this context, this thesis aimed to decipher the neurobiological mechanisms underlying such neuropsychiatric alterations, in order to identify new targets for the development of potential preventive and/or therapeutic strategies aiming to reduce these alterations. To do so, rodent models of obesity such as the db/db mice, which display severe obesity associated with classical features of metabolic syndrome, can be particularly useful.[ ] Second, we have investigated whether a nutritional intervention with n-3 polyunsaturated fatty acids (n-3 PUFAs) and antioxidants, which are well-known to display anti-inflammatory and neuroprotective properties, improved obesity-associated neuropsychiatric alterations. In addition, we have measured the consequences of chronic administration of the prebiotic oligofructose on the behavioral alterations displayed by db/db mice since previous studies pointed to the gut microbiota as an important player in the regulation of behavior. Finally, we have investigated the potential underlying mechanisms by measuring the impact of this treatment on the metabolism and systemic inflammation, but also on neurobiological systems known to be involved in the control of food intake and behavior. We first showed that an anti-inflammatory treatment or caloric restriction reduced anxiety-like behaviors, and this was associated with a selective decrease of hippocampal TNF-α mRNA expression, suggesting that this pro-inflammatory cytokine likely contributes to induce anxiety-like behavior associated with obesity. We then nicely confirmed this assumption by showing that selectively blocking brain TNF-α by chronically administrating etanercept i.c.v. (TNF-α decoy receptor) indeed decreased anxiety-like behaviors in obese db/db mice.[ ] Secondly, we tried identifying new preventive and/or therapeutic strategies aiming to improve mood and cognitive alterations associated with obesity. Hence, we measured if an n-3 polyunsaturated fatty acids/antioxidants enriched diet, well-known to modulate different neurobiological mechanisms potentially involved in behavioral alterations displayed by db/db mice, improved their behavioral alterations. We showed that chronic consumption of this diet reversed hippocampus-dependent spatial memory deficits displayed by db/db mice in a water-maze task and that this effect likely involved modulation of neuronal plasticity. Thirdly, we tested whether manipulating the gut microbiota composition may constitute a preventive and/or therapeutic strategy to improve the neuropsychiatric alterations associated with obesity. Hence, we assessed for the first time the effect of microbiota manipulation with a prebiotic on the metabolic and behavioral alterations displayed by db/db mice, but also on their systemic and neurobiological correlates. We showed that improvement of metabolic alterations following prebiotic administration in db/db mice was associated with selective reduction of peripheral and central inflammation, which is however not accompanied by detectable improvement of anxiety-like behavior or spatial memory deficits. To conclude, these experiments contribute to show that inflammation, and especially TNF-α, could be an important target to develop therapeutic treatments for mood alterations associated with obesity, whereas nutritional interventions with selective nutrients of interest may rather help preventing associated metabolic and/or cognitive alterations.

Obésité

Troubles de l’humeur

Cognition

Neuroinflammation

TNF-α

Plasticité neuronale

AGPI n-3

Antioxydants

Prébiotiques

Obesity

Mood alterations

Cognition

Neuroinflammation

TNF-α

Neuronal plasticity

N-3PUFAs

Antioxidants

Prebiotics

Plasticité des représentations corticales motrices après accident vasculaire cérébral / Plasticity of motor cortical representations following stroke

Ahdab, Rechdi

12 November 2010

Dans les suites d'un accident vasculaire moteur (AVC), il existe une réorganisation des cartes de représentation corticale des territoires musculaires pouvant intéresser aussi bien le cortex moteur primaire (CMP) que le cortex prémoteur (CPM) de l'hémisphère cérébral atteint. La contribution de ces deux aires à la plasticité corticale post-AVC est loin d'être bien définie. Notre objectif était d'étudier les modifications de cartographie corticale motrice, notamment au niveau du CMP et du CPM, et leur implication dans la récupération fonctionnelle post-AVC. Dans ce but nous avons utilisé une technique de stimulation magnétique transcrânienne (SMT) guidée par l'imagerie (neuronaviguée). Les limites anatomiques des aires corticales et l'existence de repères anatomiques fiables dans différentes régions d'intérêts ont été définies dans un premier temps. Puis nous avons établi la cartographie normale des représentations corticales motrices dans un groupe de sujets sains, notamment au moyen de cartes « probabilistes » d'obtention de réponses motrices à la SMT qui prennent en compte les variabilités interindividuelles. Nous avons ensuite étudié les modifications de ces représentations dans un groupe de patients ayant des séquelles de lésion vasculaire des régions corticales motrices. Enfin, nous avons effectué un travail prospectif de suivi cartographique d'un groupe de patients ayant présenté un AVC moteur. Dans cette dernière partie, l'analyse des données cliniques et de SMT obtenues à la phase aigüe et à trois mois de l'AVC nous a permis de caractériser les modifications anatomo-fonctionnelles corticales qui accompagnent la régression du déficit moteur, supportant en particulier le rôle central du CMP de l'hémisphère lésé. En conclusion, nous proposons des modèles d'organisation neuronale expliquant le fonctionnement du cortex moteur chez le sujet sain ainsi que la récupération motrice après une lésion partielle du CMP. / Following stroke, reorganization of the motor cortical maps takes places and involves both the primary motor cortex (M1) and the premotor cortex (PMC) on the affected hemisphere. The relative contribution of each of these two cortical areas in the process of post-stroke plasticity and motor recovery remains uncertain. The present project was designed to study the cortical changes that follow a motor stroke, namely those involving M1 and the PMC, and their implications for motor recovery. For this purpose we used MRI-guided (neuronavigated) transcranial magnetic stimulation (TMS). First, we defined the anatomical limits of the cortical areas and the reliable cortical landmarks within each region of interest. We then defined a normal motor map in a group of healthy subjects. Our “probabilistic” map was based on the probability of obtaining motor responses in a given area and therefore accounted for inter-subject variability of motor representations. Thereafter we studied the modifications of the motor cortical representations in a group of patients having recovered from a motor stroke. Finally, we prospectively followed a group of patients presenting with a motor stroke. By comparing the neurophysiological and clinical data at admission and three months later, we were able to characterize the anatomo-functional cortical changes that accompany motor recovery following stroke. Our results are consistent with a major role of M1 in motor recovery. To conclude, we propose a model of how the motor cortex works in healthy subjects and during post-stroke recovery process.

Accident vasculaire cérébral

Stimulation magnétique transcrânienne

Plasticité neuronale

Cortex moteur primaire

Cortex prémoteur

Stroke

Transcranial magnetic stimulation

Neuronal plasticity

Motor cortex

Premotor cortex

Steer by ear: clinical and neurophysiological evaluation of a novel human-machine interface

Schmalfuß, Leonie

02 March 2018

No description available.

570

Spinal Cord Injuries

Wheelchair control

Human Machine Interfaces

Prosthesis Control

Neuronal Plasticity

Motor Training

Tetraplegia

Brain Reorganization

Motor Cortex Plasticity

Biologie (PPN619462639)

Autoregulatory and Paracrine Control of Synaptic and Behavioral Plasticity by Dual Modes of Octopaminergic Signaling: A Dissertation

Koon, Alex C.

28 October 2011

Synaptic plasticity—the ability of a synapse to change—is fundamental to basic brain function and behavioral adaptation. Studying the mechanisms of synaptic plasticity benefits our understanding of the formation of neuronal connections and circuitry, which has great implications in the field of learning and memory and the studies of numerous human diseases. The Drosophila larval neuromuscular junction (NMJ) system is a powerful system for studying synaptic plasticity. The NMJ consists of at least two different types of motorneurons innervating the body wall muscles. Type I motorneurons controls muscle contraction using glutamate as the neurotransmitter, while type II are modulatory neurons that contain octopamine. Octopamine is a potent modulator of behavior in invertebrates. Nevertheless, its function at the synapse is poorly understood. In my thesis research, I investigated the role of octopamine in synaptic plasticity using the Drosophila NMJ system. Preliminary observations indicate that increased larval locomotion during starvation results in an increase of filopodia-like structures at type II terminals. These structures, which we termed as “synaptopods” in our previous studies, contain synaptic proteins and can mature into type II synapses. I demonstrated that this outgrowth of type II terminals is dependent on activity and octopamine. Mutations and genetic manipulations affecting the production of octopamine decrease synaptopods, whereas increase of type II activity or exogenous application of octopamine increase synaptopods. Interestingly, I found that the type II octopaminergic neurons have an absolute dependence on activity for their innervation of the muscles. Blocking activity in these neurons throughout development results in no type II synapses at the NMJ, whereas blocking activity after the formation of synapses results in gradual degradation of type II terminals. Next, I examined the autoregulatory mechanism underlying the octopamine-induced synaptic growth in octopaminergic neurons. I discovered that this positive-feedback mechanism depends on an octopamine autoreceptor, Octß2R. This receptor in turn activates a cAMP- and CREB-dependent pathway that is required in the octopamine-induction of synaptopods. Furthermore, I demonstrated that this octopaminergic autoregulatory mechanism is necessary for the larva to properly increase its locomotor activity during starvation. Thirdly, I investigated the possibility that type II innervation might regulate type I synaptic growth through octopamine. We found that ablation, blocking of type II activity, or the absence of octopamine results in reduced type I outgrowth, and this paracrine signaling is mediated by Octß2R which is also present in type I motorneurons. Lastly, the function of another octopamine receptor, Octß1R, was examined. In contrast to Octß2R, Octß1R is inhibitory to synaptic growth. I demonstrated that the inhibitory effect of this receptor is likely accomplished through the inhibitory G-protein Goα. Similar to Octß2R, Octß1R also regulates the synaptic growth of both type I and type II motorneurons in a cell-autonomous manner. The inhibitory function of this receptor potentially breaks the positive feedback loop mediated by Octß2R, allowing the animal to reset its neurons when the environment is favorable. In summary, the research presented in this thesis has unraveled both autoregulatory and paracrine mechanisms in which octopamine modulates synaptic and behavior plasticity through excitatory and inhibitory receptors.

Synapses

Synaptic Transmission

Neuronal Plasticity

Octopamine

Drosophila

Neuromuscular Junction

Animal Experimentation and Research

Cells

Nervous System

Neuroscience and Neurobiology

Organic Chemicals

The Role of Cell Adhesion, the Cytoskeleton, and Membrane Trafficking during Synapse Outgrowth: A Dissertation

Ashley, James A.

13 September 2006

The synapse, the minimal element required for interneuronal communication in the nervous sytems, is a structure with a great deal of plasticity, capable of undergoing changes that alter transmission strength, and even forming new connections. This property has great implications for a number of processes, including circuit formation and learning and memory. However, the proteins behind this synaptic plasticity are still not fully understood. To uncover and characterize the proteins that regulate the plastic nature of the synapse, I turned to the Drosophilalarval neuromuscular junction (NMJ), a powerful and accessible model system. I began by examining synaptic cell adhesion, as Cell Adhesion Molecules (CAMs) have long been implicated in synaptic outgrowth as well as learning and memory. CAMs have traditionally been thought of as molecules that mediate cell adhesion between the pre- and postsynaptic membrane. However, through the course of the studies presented here I demonstrate a CAM function that goes beyond simple cell adhesion, acting as a receptor that transduces adhesive signals to the intracellular space. In particular, I have demonstrated a role for the Drosophila CAM, Fasciclin II(FasII), in a signaling complex involving the Amyloid Precursor Protein-Like (APPL) and the Drosophila homolog of X11/MINT/Lin-10 (dX11). Further results show that deletion of either APPL or dX11 inhibits the FasII mediated outgrowth. These studies show that during NMJ expansion the transinteraction between FasII molecules in the pre- and postsynaptic membrane results in the recruitment of APPL and dX11 to the presynaptic cell surface, and the initiation of a signaling cascade that leads to bouton outgrowth. The next question addressed here was regarding the cytoskeletal changes that must occur during synapse remodeling. In particular I centered on the evolutionarily conserved cell polarity complex aPKC-Par3-Par6, which is know to regulate axon growth, the cell cytoskeleton during polarized cell division, and learning and memory. To understand the role of the cytoskeleton during NMJ expansion, I examined the organization of microtubules and actin during this process. Further, I identified atypical protein kinase C (aPKC) as a regulator of microtubule dynamics. I found that aPKC is required for regulating the degree of stabilization of synaptic microtubules. This stabilization requires the Microtubule Associated Protein-1B (MAP1B) homolog Futsch, which I demonstrated was required for aPKC to associate with and stabilize the microtubule cytoskeleton. The process of synaptic expansion not only requires modifications to the presynapse, but to the postsynapse as well. Previous work demonstrates that levels of the scaffolding proteins DrosophilaMembrane Associated Guanlyate Kinase (MAGUK) protein Discs-large (DLG), as well as the vertebrate homolog Postsynaptic Density-95 (PSD-95), which are concentrated at synapses, determine the size of postsynaptic membranes. To identify the underlying mechanisms of the regulation of postsynaptic size, we performed a yeast two hybrid screen, searching for DLG interacting proteins. We found a novel interaction between DLG, and a t-SNARE, GUK-interacting Syntaxin (Gtaxin; GTX), and went on to demonstrate that this interaction is required for proper postsynaptic membrane addition. Strong hypomorphic mutations in either dlg or gtx show a dramatic reduction in postsynaptic expansion. Overexpression of DLG produces an increase of synaptic GTX, as well as an increase in postsynaptic size, and an increased formation of GTX positive SNARE complexes. Taken together, these observations suggest that the MAGUK DLG regulates postsynaptic membrane addition by modulating the formation of a SNARE complex of the t-SNARE Gtaxin, and by targeting GTX to sites of postsynaptic membrane addition. In summary, the studies performed in this thesis probe a trans-synaptic adhesion based signaling complex required for presynaptic expansion, a specific pathway for dynamic microtubule stabilization required for pre- and postsynaptic expansion, and how a scaffolding protein regulates postsynaptic membrane expansion. These processes are all interconnected to maintain the efficacy of the synapse. The studies conducted revealed important information about how these processes are accomplished, and constitute an important step to elucidate the mechanisms by which synapse plasticity occurs at the level of single synaptic terminals.

synapse

synaptic plasticity

Drosophila

neuromuscular junction

cell adhesion molecules

cytoskeleton

Neuronal Plasticity

Synapses

Cell Adhesion Molecules

Microtubule Proteins

Protein Transport

Dissertations, UMMS

Neuroscience and Neurobiology

Luteinizing hormone in the central nervous system: a direct role in learning and memory

Blair, Jeffrey A.

11 April 2018

No description available.

Neurosciences

Biomedical Research

Biology

Aging

Neurobiology