Global ETD Search

271	Rôle du GPR120 microglial dans la neuro-inflammation et le comportement anxio-dépressif Bairamian, Diane 03 1900 (has links) No description available. Acides gras oméga-3 GPR120 Neuro-inflammation Comportement Métabolisme Omega-3 fatty acids Neuroinflammation Behavior Metabolism
272	Análise de fatores inflamatórios na discinesia induzida por L-DOPA em modelo de camundongos: caracterização da enzima ciclooxigenase-2 / Analysis of inflammatory factors in L-DOPA-induced dyskinesia in a mouse model: characterization of the enzyme cyclooxygenase 2 Pereira, Maurício dos Santos 27 October 2017 (has links) A doença de Parkinson (DP) é a segunda doença neurodegenerativa que mais atinge a população mundial. O desenvolvimento dos prejuízos motores decorrentes da doença está relacionado a sua fisiopatologia, que promove principalmente a neurodegeneração dos neurônios dopaminérgicos da substância negra pars compacta. Estudos sugerem o envolvimento de vias inflamatórias exacerbando a morte celular na fisiopatologia da DP. O fenômeno neuroinflamatório é caracterizado pela ativação de diversas células do sistema nervoso central, como neurônios, micróglia e astrócitos, além dos principais mediadores pró- inflamatórios, que são a enzima ciclooxigenase-2 (COX-2), o fator de necrose tumoral-alfa (TNF-?), a interleucina 1? (IL-1?) e a interleucina 6 (IL-6), entre outros. Estes fatores estão presentes em estruturas neuroanatômicas como o estriado e substância negra pars compacta de indivíduos com a DP. O tratamento crônico com L-DOPA, o precursor do neurotransmissor dopamina, inicialmente gera uma redução da manifestação dos sintomas motores na maioria dos pacientes. Porém, após certo tempo de tratamento, ocorre o surgimento de complicações motoras, como a discinesia induzida por L-DOPA (LID - LDOPA-induced dyskinesia). O desenvolvimento e a manifestação da LID também podem acompanhar uma resposta inflamatória anormal. Dados do grupo sugerem a enzima COX-2 e as células gliais como mediadores da LID. Estudos apontam que fármacos que reduzem a LID modulam a expressão de COX-2. Nosso objetivo, portanto, foi caracterizar a presença de fatores/mecanismos pró-inflamatórios no estriado lesionado de camundongos tratados com LDOPA. Nossos resultados serão apresentados em três capítulos. No primeiro capítulo, empregamos o modelo de camundongos hemiparkinsonianos (lesionados com 6- hidroxidopamina) e tratamos com L-DOPA por diferentes períodos de tempo (1, 7, 14 e 21 dias) para analisarmos o surgimento de fatores inflamatórios no estriado, como a enzima COX-2, o fator nuclear kappa-B (NF-?B) e a expressão e atividade dos astrócitos e micróglia. No segundo capítulo, demonstramos o potencial destas células gliais em produzir citocinas e/ou glutamato após estímulo com os principais neurotransmissores envolvidos com a LID, a DA (ou seu precursor L-DOPA) e glutamato. No terceiro capítulo, demonstramos o potencial terapêutico de drogas usadas na clínica - com propriedades anti-inflamatórias - de reduzirem a LID previamente estabelecida. Para tal, utilizamos o canabidiol (princípio ativo da Cannabis, usado no tratamento para epilepsia, entre outros) e o celecoxibe (inibidor específico da atividade enzimática da COX-2). Este estudo corrobora a existência de um processo inflamatório no estriado lesionado de camundongos parkinsonianos, exacerbado pelo tratamento com L-DOPA. A enzima COX-2 pode ter um papel fundamental no desenvolvimento da LID. Adicionalmente, este trabalho sugere que drogas utilizadas clinicamente com ação anti-inflamatória podem se tornar possíveis ferramentas terapêuticas para a redução desta desordem. Desta forma, relacionamos a produção de fatores inflamatórios e a ativação de células gliais à perpetuação de uma atividade pós-sináptica estriatal anormal que ocasionam a \"má plasticidade\" típica da LID. / Parkinson\'s disease (PD) is the second most common neurodegenerative disease in world population. The development of motor impairments related to this disease occurs due to its pathophysiology, which mainly promotes the neurodegeneration of the dopaminergic neurons in the substantia nigra pars compacta. Studies suggest the involvement of inflammatory pathways that exacerbate cell death in the pathophysiology of PD. The neuroinflammatory phenomenon is characterized by the activation of central nervous system cells, such as neurons, microglia and astrocytes, in addition to proinflammatory mediators that are elevated in patients with PD, such as the enzyme cyclooxygenase-2 (COX-2), tumor necrosis factoralpha (TNF-?), interleukin 1? (IL-1?) and interleukin-6 (IL-6), among others. These factors are present in neuroanatomic structures such as striatum and substantia nigra pars compacta. Chronic treatment with L-DOPA, the precursor of the neurotransmitter dopamine, initially generates a reduction in the manifestation of motor symptoms in the vast majority of patients, but after a certain time of treatment, motor complications begin to appear, such as L-DOPAinduced dyskinesia (LID). The development and manifestation of LID may also accompany an abnormal inflammatory response. Data from our group suggest the enzyme COX-2 as one of the mediators of LID. Studies also point out that drugs that reduce LID are able to modulate COX-2 expression. Our objective, therefore, was to characterize the presence of proinflammatory factors/mechanisms in the injured striatum of mice treated with L-DOPA. For this purpose, the present study will be divided into three chapters. In the first chapter, we used the hemiparkinsonian mice model (lesioned with 6-hydroxydopamine) treated with LDOPA for different time periods (1, 7, 14 and 21 days) to observe the appearance of inflammatory factors in the striatum, such as the COX-2 enzyme, nuclear factor kappa-B (NF- ?B) and the expression and activity of glial cells, represented by astrocytes and microglia. In the second chapter, we demonstrated the potential of glial cells to produce cytokines and/or glutamate after stimulation with the major neurotransmitters involved with LID, dopamine (or its precursor L-DOPA) and glutamate. Finally, in the third chapter, we demonstrate the therapeutic potential of drugs used in the clinic with anti-inflammatory properties to reduce previously established LID. For this, we used cannabidiol (the active constituent of Cannabis, used for the treatment of epilepsy, among others) and celecoxib (a specific COX-2 activity inhibitor). The present study corroborates the existence of an inflammatory process in the injured striatum of parkinsonian mice, exacerbated by treatment with L-DOPA. The COX-2 enzyme may play a key role in the development of LID. Additionally, this work suggests that drugs clinically used with anti-inflammatory action may become possible therapeutic tools for the reduction of this disorder. In this way, we relate the production of inflammatory factors and the activation of glial cells to the perpetuation of an abnormal striatal postsynaptic activity that causes the \"maladaptative plasticity\" typical of LID. Citocinas COX-2 COX-2 Discinesia induzida por L-DOPA Doença de Parkinson L-DOPA-induced dyskinesia Neuroinflamação Neuroinflammation NF-kB NF-kB Parkinson's disease, Cytokines
273	Optimisation des effets neuroprotecteurs de l'érythropoïétine par l'augmentation de l'expression neuronale de son récepteur cible : application à un modèle de status epilepticus chez le rat. Sanchez, Pascal 25 November 2008 (has links) (PDF) La recherche d'agents neuroprotecteurs dans le cadre d'un accident ou d'une maladie neurologique est une priorité des Neurosciences. Dans l'équipe, nous avons choisi d'étudier les effets neurobiologiques de l'érythropoïétine (Epo), « molécule phare » dans le domaine de la neuroprotection depuis une dizaine d'années. En analysant l'expression cérébrale de l'Epo et celle des constituants potentiels de son site de liaison (récepteur EpoR et chaîne β commune « βc ») au cours du développement postnatal et du vieillissement chez le rat, nous avons invalidé l'hypothèse selon laquelle la βc fait partie du récepteur de l'Epo. De plus, nous avons observé que divers stimuli environnementaux, tels que l'exposition hypoxique et l'enrichissement du milieu de vie, augmentent l'expression de l'EpoR dans des régions vulnérables du cerveau. Dans un modèle de status epilepticus chez le rat, cette augmentation est indispensable à l'amélioration des effets neuroprotecteurs de l'Epo, sans que la réponse inflammatoire précoce ne soit altérée. neuroprotection érythropoïétine hypoxie enrichissement du milieu de vie status epilepticus pilocarpine développement neuroinflammation
274	The Novel Use of Recombinant Granulocyte-Macrophage Colony-Stimulating Factor (GM-CSF) to Reverse Cerebral Amyloidosis and Cognitive Impairment in Alzheimer’s Disease Mouse Models: Insights from the Investigation of Rheumatoid Arthritis as a Negative Risk Factor for Alzheimer’s Disease Boyd, Timothy David 02 July 2010 (has links) For many years, it has been known that Rheumatoid arthritis (RA) is a negative risk factor for the development of Alzheimer’s disease (AD). It has been commonly assumed that RA patients’ usage of non-steroidal anti-inflammatory drugs (NSAIDs) have helped prevent the onset and progression of AD pathogenesis. Furthermore, experiments in animal models of Alzheimer’s disease have looked to inhibit inflammation, and have demonstrated some efficacy against AD-like pathology in these models. Thus many NSAID clinical trials have been performed over the years, but all have proven unsuccessful in AD patients. This suggests that intrinsic factors within RA pathogenesis itself may underlie RA’s protective effect. My dissertation research goal was to investigate this inverse relationship between RA and AD, in order to more precisely pinpoint critical events in AD pathogenesis toward developing therapeutic strategies against AD. It seemed improbable that any secreted factors, produced in RA pathogenesis, could maintain high enough concentrations in the circulatory system to cross the blood brain barrier and inhibit AD pathogenesis, without affecting all other organ systems. It did seem possible that the leukocyte populations induced in RA, could traverse the circulatory system, extravasate into the brain parenchyma, and impede or reverse AD pathogenesis. We thus investigated the colony-stimulating factors, which are up-regulated in RA and which induce most of RA’s leukocytosis, on the pathology and behavior of transgenic AD mice. We found that G-CSF and more significantly, GM-CSF, reduced amyloidosis throughout the treated brain hemisphere one week following bolus intrahippocampal administration into AD mice. We then found that 20 days of subcutaneous injections of GM-CSF (the most amyloid-reducing CSF in the bolus experiment) significantly reduced brain amyloidosis and completely reversed cognitive impairment in aged cognitively-impaired AD mice, while increasing hippocampal synaptic area and microglial density. These findings, along with two decades of accrued safety data using Leukine, the recombinant human GM-CSF analogue, in elderly leukopenic patients, suggested that Leukine should be tested as a treatment to reverse cerebral amyloid pathology and cognitive impairment in AD patients. It was also implied that age-related depressed hematopoiesis may contribute to AD pathogenesis. G-CSF M-CSF neuroinflammation Aβ Radial Arm Water Maze Cognitive Interference task transgenic mice intrahippocampal subcutaneous American Studies Arts and Humanities
275	Effect of nitric oxide and inflammatory mediators on axonal transport / Effect of nitric oxide and inflammatory mediators on axonal transport / Effect of nitric oxide and inflammatory mediators on axonal transport / Effect of nitric oxide and inflammatory mediators on axonal transport Stagi, Massimiliano 01 November 2005 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Axon Transport c-Jun N-terminal kinase TNF Neurologisch-Entzündung Axons transport c-Jun N-terminal kinase TNF neuroinflammation. 42 W
276	Évaluation de mécanismes potentiellement impliqués dans les lésions de la substance blanche après un traumatisme crânien : un rôle pour la Poly (ADP-Ribose) Polymérase ? / Evaluation of the potential mechanism implicated in white matter injury following traumatic brain injury : a role for the Poly(ADP-ribose) Polymerase Cho, Angelo Hanbum 08 January 2015 (has links) Le traumatisme crânien (TC) représente un des problèmes majeurs de santé publique, pour lequel à l’heure actuelle il n’existe aucun traitement. Le TC induit une neuro-inflammation délétère qui pourrait contribuer à l’apparition des lésions de la substance blanche (SB). Ces dernières sont à l’origine de lourdes conséquences neurologiques chez les patients victimes de TC. Néanmoins, très peu d’études se sont intéressées à ces lésions bien que plus sévères que les lésions de la substance grise. Ainsi une meilleure connaissance de leur évolution et des causes devient indispensable. L’hyperactivation de la poly(ADP ribose)polymérase (PARP) joue un rôle délétère dans les conséquences post-traumatiques, notamment sur la neuro-inflammation. Ainsi son inhibition pourrait être bénéfique le développement des lésions de la SB. Dans ce contexte, l’objectif de notre travail a été d’évaluer le rôle de la PARP dans les lésions de la SB dans un modèle expérimental de TC induit par impact cortical contrôlé chez la souris. Dans une première partie, nous avons étudié l’évolution de la démyélinisation dans le corps calleux, une structure riche en SB, entre 6 heures et 3 mois post-TC. Parallèlement, les évolutions de la lésion cérébrale, des déficits sensorimoteurs, de la neuro-inflammation et de l’œdème cérébral ont été étudiées. Le TC induit (1) une démyélinisation dès 7 jours et au moins jusqu’à 3 mois post-TC, précédée par (2) une lésion cérébrale entre 24 et 72 heures suivie par une cicatrisation, (3) une neuro-inflammation entre 6 heures et 7 jours et (4) un œdème cérébral entre 6 et 72 heures post-TC. De plus, le TC induit des déficits sensorimoteurs à 6 heures et 3 mois. Ces résultats montrent que ce modèle est adapté pour étudier les lésions de la SB post-TC, et que la neuro-inflammation et l’œdème cérébral pourrait être impliqués dans la démyélinisation. Dans une deuxième partie, nous avons étudié le rôle de la PARP dans les lésions de la SB suite à TC à l’aide de souris knockout (KO) et wild-type (WT) pour le gène de la PARP. Nous avons mis en évidence que les souris KO ne présentent pas de démyélinisation bilatérale du corps calleux après un TC par rapport aux souris WT à 7 jours post-TC, démontrant pour la première fois l’implication de cette enzyme dans les lésions de la SB consécutives à un TC. De plus, nous avons constaté que les souris KO non traumatisées présentent une diminution de myélinisation comparativement aux souris WT non traumatisées, suggérant un rôle de la PARP dans le processus physiologique de la myélinisation.En conclusion, l’ensemble de ce travail expérimental a permis (1) une meilleure caractérisation de la démyélinisation post-TC et des mécanismes potentiellement impliqués dans cette dernière, et (2) de démontrer pour la première fois le rôle délétère de la PARP dans la démyélinisation induite par un TC. Nos travaux suggèrent le potentiel de l’inhibition de la PARP comme stratégie thérapeutique pour la prévention des lésions de la SB post-traumatiques. / Traumatic brain injury (TBI) is a leading cause of death and disability for which there is no neuroprotective treatment up to date. It results in neuroinflammation that may participate in lasting motor and cognitive impairments accompanied by changes in white matter (WM) tracts. WM lesions, evidenced by demyelination, are associated with neurological disorders and in clinical studies are common consequences in patients with chronic TBI. Several studies suggest a contribution of an overactivation of the poly(ADP-ribose) polymerase (PARP) to the neuroinflammatory response which may lead to demyelination. The first part of this study was dedicated to a detailed in vivo assessment of the evolution over time of neurological disorders, cerebral lesion and edema, neuroinflammation and white matter injury induced by controlled cortical impact (CCI) between 6 hours and 12 weeks post-TBI. Notably in the corpus callosum, a significant demyelination starting at 7 days appeared to be a major consequence to post-traumatic neuroinflammation associated with motor dysfunctions. The second part of this study was dedicated to the evaluation of PARP’s role in WM lesions post-TBI, using PARP knockout (KO) mice. Our main findings reveal a diminished demyelination in the corpus callosum of TBI PARP KO as opposed to TBI PARP wildtype specimens. Hence, these data suggest for the first time PARP’s deleterious role in post-traumatic demyelination. In conclusion, taken together these data give an overall view of motor/sensorimotor deficits, neuroinflammation and demyelination in a CCI model of TBI that could help to validate pharmacological strategy for preventing post-traumatic WM injury. Notably, PARP’s inhibition seems to be a valid candidate as this enzyme participates in the establishment of a demyelinating process. Traumatisme crânien Poly(ADP-ribose) polymérase Substance blanche Neuro-inflammation Traumatic brain injury Poly(ADP-ribose) polymerase White matter Neuroinflammation 617.481 044
277	Développement d'un modèle murin transgénique d'infection par l'herpèsvirus 6A et étude des mécanismes d'induction de la neuroinflammation Reynaud, Joséphine 31 May 2013 (has links) (PDF) L'herpèsvirus humain (HHV) 6 est un betaherpèsvirus largement répandu, associé à plusieurs maladies neuroinflammatoires, telles que des encéphalites ou la sclérose en plaques (SEP). Cependant, les mécanismes impliqués dans la neuropathologie induite par les deux espèces d'HHV-6, HHV-6A et HHV-B, sont peu connus. De plus, l'absence de modèle d'infection chez le petit animal a ralenti l'étude de la pathogénèse virale. Dans ce contexte, nous avons développé un modèle d'infection par HHV-6 chez des souris transgéniques, qui expriment la protéine CD46 humaine, identifiée comme récepteur cellulaire pour HHV-6. Nous avons pu démontrer une persistance de l'ADN viral d'HHV-6A, mais pas d'HHV-6B, dans le cerveau de souris transgéniques pendant plusieurs mois. De plus nos résultats montrent qu'HHV-6A induit la sécrétion de chimiokines pro-inflammatoires par les cellules neurales murines et provoque l'infiltration de cellules immunitaires dans le cerveau de souris infectées. Enfin, HHV-6A, mais pas HHV-6B, pourrait induire des réponses cellulaires chez les cellules murines via le récepteur de l'immunité innée TLR9 (toll-like receptor 9). En collaboration avec une équipe de Grenoble, nous avons ensuite montré que l'infection par HHV-6A induit l'expression de rétrovirus endogènes humains (HERV) dans des cellules mononuclées et des lignées neurales humaines. Ces HERV, en particulier leurs protéines d'enveloppe qui présentent des propriétés pro-inflammatoires, sont associés à diverses maladies autoimmunes dont la SEP. HHV-6A pourrait donc participer au développement de pathologies inflammatoires via l'induction de ces HERV. L'ensemble de ces travaux supporte ainsi l'existence d'un lien entre l'infection par HHV-6A et la neuroinflammation, et apporte de nouvelles pistes quant aux mécanismes potentiellement impliqués. HHV-6 Herpèsvirus Neuroinflammation Modèle animal Souris CD46 Rétrovirus endogène humain Sclérose en plaques Encéphalite
278	In vivo approach to myelin turnover and oligodendrocyte-dependent axonal integrity Lüders, Katja 21 August 2018 (has links) No description available. 570 Proteolipid protein (PLP) Oligodendrocyte Axonopathy Glia-axonal support Myelin Neurodegeneration Neuroinflammation Tamoxifen Biologie (PPN619462639)
279	Estudo da ação da lovastatina no desenvolvimento do modelo experimental de epilepsia induzido pela pilocarpina em ratos / Study of lovastatin on development of experimental model of epilepsy induced by pilocarpine in rats Gouveia, Telma Luciana Furtado [UNIFESP] 29 June 2011 (has links) (PDF) Made available in DSpace on 2015-07-22T20:50:05Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-06-29 / Introducao: A inflamacao tem sido relacionada a varias doencas neurodegenerativas e dados clinicos e experimentais sugerem uma funcao crucial nos processos inflamatorios no desenvolvimento da epilepsia, em particular, nos mecanismos geradores de crises (ictogenese) e na transformacao de uma rede neuronal normal a uma rede geradora de crises. A lovastatina, substancia usada na reducao da sintese do colesterol, tambem esta relacionada com a resposta inflamatoria, podendo modular a producao de citocinas e diminuir e o estresse oxidativo. Objetivos: O presente estudo teve como objetivo analisar a acao da lovastatina no desenvolvimento das diferentes fases do modelo de epilepsia, induzido por pilocarpina em ratos. Metodos: Ratos Wistar machos foram analisados nos 3 periodos do modelo da pilocarpina (350mg/kg) fases: aguda (24h), silenciosa (15 dias) e cronica (30 dias apos a 1.a crise espontanea) e para cada periodo do modelo usamos 4 grupos de animais: salina, lovastatina (Lova), pilocarpina (Pilo) e pilocarpina+lovastatina (Pilo+Lova). O tratamento com lovastatina (20 mg/kg) se iniciou 2 h apos o inicio do estado de mal epileptico e foi administrada por 15 dias, duas vezes ao dia nos animais do grupo silencioso e cronico. O cerebro foi processado para realizacao de PCR em tempo real e imuno-histoquimica de IL-1ƒÀ, IL-6, TNF-ƒ¿, IL-10, receptor B1 e B2 de cininas e quantificacao de aminoacidos no hipocampo. Alem disso, o tecido hipocampal foi processado para as tecnicas de Nissl e Neo-Timm modificado. Alem disso, foi medida a temperatura corporea na fase aguda, duracao do periodo silencioso e frequencia de crises na fase cronica. Resultados: O tratamento com a lovastatina no grupo Pilo+Lova mostrou diminuicao da expressao de RNAm e das proteinas IL-1ƒÀ e TNF-ƒ¿ nas 3 fases do modelo Notamos tambem reducao nos niveis do receptor B1 e B2 de cininas na fase aguda e de IL-6 nas fases aguda e silenciosa do modelo. Houve um aumento da expressão de IL-10 na fase crônica e não houve alteração nos níveis dos aminoácidos no hipocampo dos animais desse grupo, quando comparado ao grupo Pilo. Foi observada uma normalização da temperatura corpórea dos ratos submetidos ao SE e tratados com lovastatina. Não houve diferença significativa entre o grupo Pilo e Pilo+Lova na duração da fase silenciosa e na freqüência de crises. Foi observada uma preservação de neurônios em CA1 e também uma diminuição no brotamento de fibras musgosas no grupo Pilo+Lova, quando comparado ao grupo Pilo, na fase crônica do modelo. Conclusão: O presente estudo demonstrou que o tratamento com a lovastatina diminuiu diversos parâmetros importantes relacionados com o dano neuronal induzido pelo SE, no hipocampo de ratos nas diferentes fases do modelo experimental de epilepsia induzido pela pilocarpina. / Introduction: Inflammation has been associated with several neurodegenerative diseases and experimental and clinical data suggest a crucial role in inflammatory processes in the development of epilepsy, particularly in seizure-generating mechanisms (ictogenesis) and transformation of a normal neuronal network into a network generating seizures. Lovastatin, a drug used in the reduction of cholesterol synthesis, is also related to the inflammatory response and can modulate cytokine production reducing the oxidative stress. Objectives: This study aimed to analyze the action of lovastatin in different stages of development model of epilepsy induced by pilocarpine in rats. Methods: Male Wistar rats were analyzed in three periods of the pilocarpine-induced epilepsy (350mg/kg) into phases: acute (24h), silent (15 days) and chronic (30 days after the 1st spontaneous seizure) and for each period of this model we used 4 groups of animals: saline-treated, lovastatin (Lova), pilocarpine (Pilo) and pilocarpine + lovastatin (Pilo+ Lova). Treatment with lovastatin (20 mg / kg) begun 2 h after the onset of status epilepticus (SE) and was administered for 15 days, twice a day the animals in the silent and chronic phases. The brain was processed for performing real-time PCR and immunohistochemistry of IL-1ƒÀ, IL-6, TNF-ƒ¿, IL-10 and kinin B1 and B2 receptors and quantification of amino acids in the hippocampus. Besides, the hippocampal tissue was processed for Nissl techniques and Neo-Timm. In addition, body temperature was measured in the acute phase and the duration of the silent period and seizure frequency in chronic phase was analyzed. Results: Treatment with lovastatin in Pilo + Lova group showed decreased expression of mRNA and proteins IL-1ƒÀ and TNF-ƒ¿ in the three phases of this model, We also noted reduction of kinin B1 and B2 receptor in the acute and IL-6 into acute and silent periods. There was an increased expression of IL-10 in the chronic phase of this model. There was no change in amino acids levels in the hippocampus of rats from Pilo+Lova group when compared to Pilo group. We observed a normalization of body temperature of rats subjected to SE and treated with lovastatin. There was no significant difference between the group Pilo and Pilo + Lova on the duration of the silent phase and in seizure frequency. We observed a preservation of neurons in CA1 and also a reduction of mossy fiber sprouting in Pilo+ Lova group as compared to the Pilo group in the chronic phase of the model. Conclusion: This study demonstrated that treatment with lovastatin decreased number of important parameters related to the neuronal damage induced by SE in the hippocampus of rats at different stages of the experimental model of epilepsy induced by pilocarpine. / TEDE / BV UNIFESP: Teses e dissertações Lovastatina Neuroinflamação Neuroproteção Pilocarpina Epilepsia do lobo temporal Ratos Wistar Modelos animais de doenças Neuroinflammation Neuroprotection Pilocarpine Temporal lobe epilepsy Lovastatin Wistar rats Animal disease models
280	Administração intraestriatal de hipoxantina altera perfil inflamatório e neuroenergético via estresse oxidativo em estriado de ratos Brendler, Helena Biasibetti January 2017 (has links) A hipoxantina, principal oxipurina envolvida na via de salvação das purinas no cérebro, acumula-se na doença de Lesch-Nyhan, um erro inato do metabolismo das purinas. Os sintomas clínicos manifestam-se precocemente na vida dos pacientes, incluindo alterações motoras e cognitivas, retardo mental e automutilação. Embora os mecanismos subjacentes da disfunção cerebral na doença de Lesch-Nyhan sejam pouco compreendidos, o acúmulo de hipoxantina parece contribuir para os danos neurológicos. O objetivo deste estudo foi investigar os efeitos da administração intraestriatal de hipoxantina em ratos infantis e adultos jovens submetidos à cirurgia estereotáxica. Neste estudo, analisamos primeiramente o efeito da hipoxantina sobre os parâmetros neuroinflamatórios e oxidativos em estriados de ratos infantis e adultos jovens. Foram avaliados também alguns parâmetros neuroenergéticos. Ratos Wistar de 21 e 60 dias de vida foram submetidos à cirurgia estereotáxica e foram divididos em dois grupos: controle (infusão de solução salina 0,9%) e hipoxantina (10 IJM). A administração intraestriatal de hipoxantina aumentou os níveis de IL-6 e TNF-a e o imunoconteúdo da subunidade NF-kB I p65 nuclear em estriado de ambas as idades de ratos. A ativação microglial e astrocitária foram observadas pelo aumento do imunoconteúdo de lba1 e GFAP, respectivamente, no estriado de ratos de 21 dias. Todos os parâmetros oxidativos foram alterados, sugerindo uma forte relação neurotóxica de hipoxantina e estresse oxidativo. Em ratos de 60 dias de vida, a hipoxantina aumentou a atividade da succinato desidrogenase e do complexo 11 e diminuiu a atividade da citocromo c oxidase e seu imunoconteúdo. A injeção de hipoxantina diminuiu a porcentagem marcação de membrana mitocondrial e aumentou marcação de potencial mitocondrial. A hipoxantina também diminuiu o número de células vivas e aumentou o número de células apoptóticas. Em ratos de 21 dias de vida, a hipoxantina alterou alguns parâmetros do metabolismo energético e diminui a atividade de Na+,K+-ATPase, provavelmente por danos às proteínas, visto pela redução de conteúdo de sulfidrilas. Nossos achados mostram que a administração de hipoxantina alterou parâmetros neuroinflamatórios e neuroenergéticos, possivelmente por meio de desequilíbrio oxidativo, sugerindo que esses processos podem estar envolvidos, pelo menos em parte, com os distúrbios neurológicos encontrados em pacientes com doença de Lesch-Nyhan. / Hypoxanthine, the major oxypurine metabolite involved in purine's salvage pathway in the brain, is accumulated in Lesch-Nyhan disease, an in bom errar of metabolism of purine. The clinicai symptoms manifest early in the patients' lives, including motor and cognitiva alterations, mental retardation and self-mutilation. Although the underlying mechanisms of brain dysfunction in Lesch-Nyhan disease are poorly understood, the accumulation of hypoxanthine appears to contribute to neurological damage. The purpose of this study was to investigate the effects of hypoxanthine intrastriatal administration in infant and young adult rats submitted to stereotactic surgery. We firstly analyzed the effect of hypoxanthine on neuroinflammatory and oxidative parameters in striatum of infant and young adult rats. We also evaluated some neuroenergetic parameters. Wistar rats of 21 and 60 days of life underwent stereotactic surgery and were divided into two groups: contrai (infusion of saline 0.9%) and hypoxanthine (10 IJM). lntrastriatal administration of hypoxanthine increased IL- 6 and TNF-a leveis and nuclear immunocontent of NF-KB/p65 subunit in striatum of rats of both ages. Microglial and astrocyte activation was seen by the increase in lba1 and GFAP immunocontent, respectively, in striatum of infant rats. Ali oxidative parameters were altered, suggesting a strong neurotoxic hypoxanthine role on oxidative stress. In 60-day-old rats hypoxanthine increased succinate dehydrogenase and complex 11 activities and diminished cytochrome c oxidase activity and immunocontent. Hypoxanthine injection decreased the percentage of cells with mitochondrial membrana label and increased mitochondrial mass potential labeling. Hypoxanthine also diminished the number of live cells and increased the number of apoptotic cells. In 21-days-old rats hypoxanthine altered some energy metabolism parameters and decreased Na•,K•-ATPase activity probably by protein damage, seen in the reduction of sulfhydryl content. Our findings show that the administration of hypoxanthine altered neuroinflammatory and neuroenergetic parameters, possibly through oxidative imbalance, suggesting that these processes may be involved, at least in part, with the neurological disorders found in patients with Lesch-Nyhan disease. Erros inatos do metabolismo Síndrome de Lesch-Nyhan Estresse oxidativo Hipoxantina Corpo estriado Purinas Metabolismo energetico Hypoxanthine Neuroinflammation Oxidative stress Neuroenergetic Apoptosis Na+ K+-ATPase

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