Tesis sobre el tema "Animals, Astrocyte"
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Featherstone, Robert Earle. "Plasticity in the maternal circuit, effects of pup exposure and retention interval on astrocyte numbers in primiparous and multiparous animals". Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/tape16/PQDD_0011/MQ29187.pdf.
Texto completoDutuit, Magali. "Régulations physiologiques et pathologiques des fonctions astrocytaires impliquées dans l'homéostasie du GABA et du glutamate". Lyon 1, 2000. http://www.theses.fr/2000LYO1T222.
Texto completoBasu, Shubhayu. "Effects of three dimensional structure of tissue scaffolds on animal cell culture". Connect to this title online, 2004. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1092689986.
Texto completoTitle from first page of PDF file. Document formatted into pages; contains xviii, 236 p.; also includes graphics (some col.). Includes bibliographical references (p. 194-211). Available online via OhioLINK's ETD Center
Clavreul, Solène. "Développement du réseau astroglial dans le cortex cérébral murin". Thesis, Sorbonne université, 2018. http://www.theses.fr/2018SORUS540.
Texto completoAstrocytes are one of the most numerous cell types in the brain. They consist in ramified glial cells that play essential roles in neural tissue where they form an uninterrupted tridimensional network, while displaying important local heterogeneity in terms of morphology and molecular marker expression. To determine how this network is established during development, multiclonal lineage tracing was performed to analyzed large numbers of astrocyte clones issued from nearby mouse cortical progenitors. Results show that cortical astrocyte clones intermix with their neighbors, display extensive variability in terms of spatial organization, numbers and subtypes of generated cells, and increase in size towards the upper part of the cortex. Furthermore, this organization develops through two stages that comprise a dynamic phase of proliferation accompanied by spatial dispersion, and a maturation phase where morphological complexity and volume increase at the single cell level. Moreover a significant contribution of subependymal postnatal progenitors to the generation of astrocytes, independent of their subtype and location, was uncovered in addition to prenatal delaminating apical progenitors. Thus cortical astrocyte network development appears unstereotyped at the clonal level. This suggests that the construction of this network relies on plastic clonal units issued from non-specified astrocyte progenitors that differentially expand and mature, and whose descendants probably acquire their final characteristics through interactions with their neuronal environment through molecular mechanisms that still need to be defined
Marques, Karina de Brito. "Plasticidade sinaptica em motoneuronios alfa medulares de animais submetidos a encefalomielite autoimune experimental". [s.n.], 2007. http://repositorio.unicamp.br/jspui/handle/REPOSIP/316501.
Texto completoTese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia
Made available in DSpace on 2018-08-09T22:49:48Z (GMT). No. of bitstreams: 1 Marques_KarinadeBrito_D.pdf: 8050913 bytes, checksum: f9c7d621391d6f3f99413a9c27749530 (MD5) Previous issue date: 2007
Resumo: Durante o curso da encefalomielite autoimmune experimental ocorre uma grave redução das funções motoras e sensitivas. Esses eventos têm sido classicamente atribuídos ao processo desmielinizante da doença. Em ratos, os sinais clínicos da doença desaparecem 5 dias após completa tetraplegia, indicando que o processo desmielinizante não é a única causa da rápida evolução da doença. Assim sendo, investigamos as alterações sinaptológicas e o processo inflamatório induzidos pela encefalomielite autoimune experimental (EAE) em motoneurônios medulares e sua relação com o surto e remissão da doença. Para esse estudo, foram utilizados ratos Lewis, fêmeas de 7 semanas. Os animais foram induzidos à EAE por meio de dose única de proteína básica de mielina emulsificada com adjuvante completo de Freund e sacrificados no 13º dia após indução (surto grau 3) e no 26º dia (remissão da doença). Também, para investigar a possibilidade de que o tratamento com acetato de glatirâmer, uma droga imunomoduladora baseada na estrutura de aminoácidos da proteína básica de mielina, interfira no processo de plasticidade sináptica, os animais foram induzidos à EAE, tratados com AG diariamente e sacrificados após 2 semanas. Os grupos experimentais foram divididos em: estudo da aposição sináptica durante surto e remissão da doença e tratamento dos animais induzidos à EAE com AG. Assim, os espécimes foram processados para análise através de imunohistoquímica e microscopia eletrônica de transmissão. Nossos resultados indicaram que os componentes gliais (astrócitos e microglia), estimulados pela inflamação, desempenham papel ativo no processo de retração sináptica em motoneurônios alfa. Apresentamos evidências de que a eliminação de terminais sinápticos contribui para a perda da função motora observada no curso da doença e que o imunomodulador AG não só possui efeito antiinflamatório, mas também influencia diretamente na plasticidade de elementos neurais no microambiente medular. Reforçam, também, que um processo agudo de inflamação pode colaborar diretamente para a recuperação e sobrevivência neuronal, uma vez que as células inflamatórias produzem citocinas e fatores neurotróficos no microambiente medular
Abstract: During the course of experimental autoimmune encephalomyelitis, a massive loss of motor and sensitive function occurs, which has been classically attributed to the demyelination process. In rats, the clinical signs disappear within 5 days following complete tetraplegia, indicating that demyelination might not be the only cause for the rapid evolution of the disease. The immunomodulador glatiramer acetate (GA) has been shown significantly reduce the seriousness of the symptoms during the exacerbation of the disease. However, little is known about its effects on the spinal motoneurons and on their afferents. The present work investigated the occurrence of experimental autoimmune encephalomyelitis-induced changes of the synaptic covering of spinal motoneurons during exacerbation and after remission and investigated whether GA has a direct influence on synapse plasticity and on the deafferentiation of motoneurons during the course of EAE in rats. Lewis rats were subjected to EAE associated with GA or placebo treatment. The animals were sacrificed after fifteen days of treatment. For the both cases the spinal cords was processed for immunohistochemical analysis (IH) and electron transmission microscopy. The terminals were typed with transmission electron microscopy as C-, F- and Stype. Immunohistochemical analysis of synaptophysin, glial fibrillary acidic protein and the microglia/macrophage marker F4/80 were also used in order to draw a correlation between the synaptic changes and the glial reaction. The ultrastructural analysis showed that, during exacerbation, there was a strong retraction of both F- and S-type terminals. In this sense, both the covering as well as the length of the remaining terminals suffered great reductions. However, the retracted terminals rapidly returned to apposition, although the mean length remained shorter. A certain level of sprouting may have occurred as, after remission, the number of F-terminals was greater than in the control group. The immunohistochemical analysis showed that the peak of synaptic loss was coincident with an increased macro- and microglial reaction. Interestingly, although the GA treatment preserved synaptophysin labelling, it did not significantly reduce the glial reaction, indicating that inflammatory activity was still present. Our results suggest that the major changes occurring in the spinal cord network during the time course of the disease may contribute significantly to the origin of the clinical signs as well as help to explain their rapid recovery and that the immunomodulator GA has a direct influence on the stability of nerve terminals in the spinal cord, which in turn may contribute to its neuroprotective effects during the course of multiple sclerosis
Doutorado
Anatomia
Doutor em Biologia Celular e Estrutural
Sirisi, Dolcet Sònia. "Bases moleculars de la Leucoeocefalopatia Megalencefàllca amb Quists subcorlicals. Utilització de models animals i cel·lulars". Doctoral thesis, Universitat de Barcelona, 2014. http://hdl.handle.net/10803/284761.
Texto completoMegalencefalic leukoencephalopathy with subcortical cysts, also known as MLC, is a rare type of leukodystrophy. Currently still unknown pathophysiological mechanism of the disease, and therefore there is no effective treatment possible for patients. There are two genes involved in the MLC disease. Gene was first discovered was MLC1 and this encodes for a membrane protein with the same name. The second gene is called GLIALCAM and encodes for a transmembrane protein type I that also carries the same name. In our group is has been described that GlialCAM acts as a protein ß subunit of MLC1 because it is able to direct and concentrate in the cellular junctions. Moreover, GlialCAM also act as auxiliary subunit of CLC-2 Cl channel as it is capable of modifying the activation and rectification properties of the channel. In this work we have developed two different models to study the physiopathology. The results show that GlialCAM affected by the absence of MLC1. It has been also demonstrated that ClC-2 is implicated in the disease.These results were compared with a patient brian and has been shown that MLC1 is important for the correct location of GlialCAM in the cerbellum. Have also been developed a different cellular models. The results with this models show that GlialCAM and ClC-2 could have a functional role in the process of potassium siphoning.
Cabarrocas, Julie Marie Cécile. "Etude de l'auto-réactivité dirigée contre un antigène du système nerveux au moyen de souris transgéniques". Toulouse 3, 2005. http://www.theses.fr/2005TOU30068.
Texto completoWe have studied autoimmunity targeting a nervous system-specific antigen with the use of several transgenic mouse lines, and have investigated : i) clinical and histopathological effects of autoimmune processes induced by CD8+ T-cells specific for a glial antigen expressed in astrocytes and enteric glial cells (EGC) ; ii) the role of CD8+ T-cells in the immune surveillance of the central nervous system and the induction of inflammatory lesions in this organ ; and iii) the mechanisms of tolerance affecting populations of astrocytes- and EGC-specific CD4+ T-cells
Jukkola, Peter I. "The Role of Potassium Ion and Water Channels in an Animal Model ofMultiple Sclerosis". The Ohio State University, 2014. http://rave.ohiolink.edu/etdc/view?acc_num=osu1397656579.
Texto completoRouleau, Caroline. "Implications du pyruvate dans le métabolisme de lignées astrocytaires spinales spontanément transformées". Montpellier 1, 2006. http://www.theses.fr/2006MON1T029.
Texto completoGuérin-Eysseric, Hélène. "Expression du métabolisme cérébral de l'éthanol : production d'acétaldéhyde et de radicaux libres par les cellules astrocytaires de rat en culture". Université Joseph Fourier (Grenoble), 1997. http://www.theses.fr/1997GRE10249.
Texto completoBouzier-Sore, Anne-Karine. "Etude par RMN du 13 C du métabolisme de la cellule C6 et du cerveau de rat sain ou porteur d'un gliome". Bordeaux 2, 2000. http://www.theses.fr/2000BOR28735.
Texto completoCarvalho, Kárin Santana de. "Alterações na glia observadas em regiões encefálicas envolvidas no controle respiratório em um modelo animal da doença de Parkinson". Universidade de São Paulo, 2017. http://www.teses.usp.br/teses/disponiveis/42/42136/tde-15022018-171401/.
Texto completoParkinson\'s disease (PD) has a decline in respiratory capacity. A study using a model of PD induced by the injection of 6-hydroxydopamine (6-OHDA) in the striatum showed a reduction in the number of neurons involved in the control of breathing. The aim of this study was to evaluate glial changes in the retrotrapezoid nucleus (RTN), nucleus of the solitary tract, pre-Bötzinger complex and rostral ventral respiratory group (rVRG) using the same experimental model. Wistar rats that received bilateral 6-OHDA injection in the striatum present a reduction in immunoreactivity for glial fibrillary acidic protein in astrocytes in the rVRG from 30 days, in the RTN from 40 days and in the other regions from 60 days. We also observed an increase of the Ionized calcium binding adaptor molecule 1 in microglia in the region of the RTN at 30 and 40 days. Our data suggest that astrocytic reduction contributes to the respiratory changes observed in this experimental model and the presence of neuroinflammation in the RTN may contribute to the cellular loss in this region.
Chever, Oana. "Implication du canal glial Kir4.1 dans la régulation du potassium extracellulaire : étude in vivo chez la souris knock-out Kir4.1 sous anesthésie". Thesis, Université Laval, 2008. http://www.theses.ulaval.ca/2008/25879/25879.pdf.
Texto completoMarret, Stéphane. "Développement des astrocytes et des oligodendrocytes dans les cultures de cerveaux de rats nouveau-nés : influence de deux composants de la matrice extra-cellulaire ; l'hyaluronane et l'hyaluronectine". Rouen, 1993. http://www.theses.fr/1993ROUE06NR.
Texto completoCordeau, Pierre Jr. "IMAGERIE IN VIVO DE LA RÉPONSE NEUROINFLAMMATOIRE : LA RÉPONSE ASTROCYTAIRE SUITE À UNE ISCHÉMIE CÉRÉBRALE". Thesis, Université Laval, 2008. http://www.theses.ulaval.ca/2008/25249/25249.pdf.
Texto completoViola, Giordano Gubert. "Enriquecimento ambiental modifica a morfologia dos astrócitos do hipocampo e a resposta comportamental no reconhecimento de objeto em camundongos". reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2009. http://hdl.handle.net/10183/28748.
Texto completoEnvironmental enrichment (EE) induces plastic changes in the brain, including morphological changes in hippocampal neurons, with increases in synaptic and spine densities. In recent years, the evidence for a role of astrocytes in regulating synaptic transmission and plasticity has increased, and it is likely that morphological and functional changes in astrocytes play an important role in brain plasticity. In others hand EE is used to investigate behavioral modifications associated with gene-environmental interaction. Our study was designed to evaluate changes in astrocytes induced by EE in the hippocampus, focusing on astrocytic density and on morphological changes in astrocytic processes and the performance in object recognition task (ORT) for evaluate animals ability to learn about their environment. After 8 weeks of EE starting at weaning, CF-1 mice presented no significant changes in astrocyte number or in the density of glial fibrillary acidic protein immunoreactivity (GFAP-ir) in the Stratum Radiatum. However, in the same region occur significant increase in the ramification of astrocytic processes, as well as by an increase in the number and length of primary processes extending in a parallel orientation to CA1 nerve fibers. This led astrocytes to acquire a more stellate morphology, a fact which could be related to the increase in hippocampal synaptic density observed in previous studies. These findings corroborate the idea that structural changes in astrocytic networks are an integral part of plasticity processes occurring in the brain. In other hand, our results indicate that EE decreased the time the animals spent exploring familiar and unfamiliar objects and total time spent exploring both objects, without affecting the capacity of discrimination of objects. These findings indicate a more propitious behavior for species survival in animals subjected to EE, including rapid exploration and learning about the environment.
Chauvet, Norbert. "Rôles des tanycytes dans les mécanismes de régénération axonale des neurones du système nerveux central du rat adulte". Montpellier 2, 1997. http://www.theses.fr/1997MON20160.
Texto completoDutra, Márcio Ferreira. "Efeitos do exercício físico sobre a expressão da proteína glial fibrilar ácida (GFAP) e comportamento motor de ratos submetidos ao modelo de doença de Parkinson induzida por 6-OHDA". reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2009. http://hdl.handle.net/10183/17417.
Texto completoMorin-Richaud, Claudie. "Réactions de la macroglie après lésions de la moelle épinière : études chez le rat et la souris vimentine null". Montpellier 2, 1997. http://www.theses.fr/1997MON20097.
Texto completoNajeme, Farid. "Etude d'antigènes de cellules gliales du système nerveux central : protéine basique de la myéline dans la sclérose en plaques et l'encéphalomyélite allergique expérimentale. Expression de l'antigène 6.17 dans les astrocytes au cours du développement". Bordeaux 2, 1995. http://www.theses.fr/1995BOR28331.
Texto completoGaspar, Pedro Ivo Kalil. "Treinamento resistido ou de endurance em ratos adultos jovens e velhos : efeitos sobre os músculos dos membros posteriores, medula espinhal lombar e sobre a astrocitose hipocampal". reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2011. http://hdl.handle.net/10183/35151.
Texto completoYoung (6 months) and aged (24-25 months) male Wistar rats were assigned to endurance training (ET - treadmill running) and resistance training (RT - grid climbing with increasing weights) during 6 weeks and compared to sedentary controls (n=6). At the end, hindlimb muscles (soleus and gastrocnemius) were analysed by histograms and total AChE activity. In the lumbar spinal cord, motoneurons (MN) were counted, as well as gray matter's GFAP-labeled astrocytes. Optical densities were measured in the ventral (VH) and dorsal (DH) horns for CGRP-ir (MN and DH), AChE staining and 5-HT-ir (VH and DH). Data from histograms were analysed using MANOVA and Tukey’s post hoc. The remaining data Weir analysed using ANOVA and Duncan´s post hoc. Results: gastrocnemius, but not soleus, muscle histograms in young rats showed distinct fiber distribution profiles under ET (toward medium-diameter fibers) and RT (toward large-diameter fibers). The predominance in small-diameter muscle fibers in aged rats was similarly reversed by ET and RT, but aged rats presented limited increase in large-diameter muscle fibers. Both ET and RT decreased muscle AChE activity. The aged spinal cords presented MN loss and greater astrocyte numbers. Both ET and RT reduced astrogliosis in VH, but not in DH. The aged rats displayed elevated CGRP-ir in MN, and neither ET nor RT altered CGRP-ir in MN or DH. Exercise (ET and RT) markedly increased AChE staining in VH in all groups. RT decreased AChE in DH and 5-HT-ir in VH. In young rats, running elevated 5-HT-ir in the DH. These results suggest that different chronic exercise modalities and age evoke distinct spinal cord neurotransmitter responses.
Tovar, Cristian Camilo Figueroa. "Efeitos da restrição de crescimento intrauterino por redução da pressão de perfusão uterina sobre parâmetros comportamentais, de neuroplasticidade e memória". reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2015. http://hdl.handle.net/10183/122356.
Texto completoINTRODUCTION: Intrauterine growth restriction (IUGR) is known as a condition where the fetus cannot develop its intrinsic growth potential. IUGR Children in early scholar age have impaired learning abilities, memory, attention and cognitive deficit in general; also, they are in higher risk of psychological disorders as Attention Deficit and Hyperactivity Disorder (ADHD) when compared with non-IUGR children. OBJECTIVE: The study aims to find neurobiologi-cal brain modifications, in adolescent Wistar rats, that could clarify these memory and behav-ioral impairments in a rat animal model of IUGR by Reduced Uterine Perfusion Pressure (RUPP). METHODS: 75 days-old pregnant Wistar rats were underwent to RUPP procedure on 14th gestational day, period where the fast growing, differentiation and maturation phase begins in rats, by putting one clip at the abdominal descendent aorta before iliac bifurcation and one clip in each ovarian artery. The Sham group underwent exploratory laparotomy procedure without the RUPP and the control group was not exposed to any surgical procedure. 30 days old Wistar rats from RUPP, Sham, and Control mothers were exposed to the Open Field Test to assess the locomotor and exploratory activity and, at 32th postnatal day (PND), to the Novel Object Recognition test to assess the long-term memory. Offspring brains were collected at 34th PND and preserved for analysis. Immunohistochemistry technique was performed to measure the expression of neural cells markers: NeuN (mature neurons) and GFAP (astrocytes) in prefrontal cortex and striatum on the offspring. RESULTS: RUPP caused a decreased birth weight in IUGR and Sham group, however there was no difference between birth weight at 30th PND. RUPP significantly increased gestation in 1 day in IUGR rats. IUGR animals had greater exploratory, locomotor activity in the Open Field test. IUGR and Sham showed memory deficit in the Novel Object Recognition test. Associated to those behavioral modifications, the RUPP leaded to a significant increase in expression of NeuN and GFAP marker in prefrontal cortex and striatum at PND34. CONCLUSIONS: The RUPP dis-turbs pregnancy increasing gestation length and inducing IUGR in the offspring; which leads to behavioral and memory modifications, also, in a brain cellular level, promoting new insight about the IUGR-RUPP rat model consequences. Further analysis are needed to find whether this changes are still present in adult life.
Olivier, Paul. "Lésions cérébrales du prématuré et retard de croissance intra-utérin : des modèles chez le rat". Paris 7, 2007. http://www.theses.fr/2007PA077175.
Texto completoBehavioural deficit secondary to white matter damage of preterm infant is a major public health issue. The risk-factors associated with prematurity play a role in the pathophysiology of these insults. Among these factors, the implication of intra-uterine growth restriction (IUGR) is still debated. The effect of IUGR on white matter development were studied in a model of prenatal growth restriction in rat. Similarly to preterm infants, severe growth restricted pups exhibit diffuse white matter damage associating glial reaction and protracted myelination defect. Moderate IUGR is associated with transcient white matter insult in rat pups. The myelination repair is concomitant with the enhancement of oligodendrocytes proliferation after the first week of life. Furthermore, hypoxic preconditionning associated with moderate IUGR is protective against a postnatal excitotoxic insult in a "double-hit" protocol. In another hand, the impact of IUGR on cortical development were investigated. In severely growth restricted adult rat, a decrease of neuronal density, and particularly of GABAergic sub-populations density, was detected in the somato-sensory cortex. This neuronal deficit was associated with behavioral and cognitive disorders. Thus, these animal models of IUGR in rat mimick the histologic and behavioural deficit of preterm infants with low birth-weight. This study provides new elements for a better comprehension of the role of factors (hypoxia, ischemia, trophic factors deprivation) associated with IUGR in the pathophysiology of immature brain damage
ZANARDELLI, MATTEO. "Oxaliplatin-neuropathy: a safe pharmacological approach based on the activation of different apoptotic pathways in normal vs tumoral cells". Doctoral thesis, 2014. http://hdl.handle.net/2158/855510.
Texto completoLopes, Cátia Sofia Resende. "Role of astrocytes in synaptic plasticity and memory in animal models of Alzheimer's disease". Master's thesis, 2018. http://hdl.handle.net/10316/81898.
Texto completoOs astrócitos, a maior população celular do cérebro, têm um papel importante no processamento e metabolismo neuronal e no controlo da barreira hematoencefálica. Evidências apoiam a existência de uma comunicação bidirecional entre neurónios e astrócitos no controlo da função cerebral, originando o conceito de "sinapse tripartida", que postula que os astrócitos são o terceiro elemento ativo das sinapses, modulando a plasticidade sináptica. A plasticidade sináptica, nomeadamente a potenciação de longa duração (LTP, “long-term potentiation”) e a depressão de longa duração (LTD, “long-term depression”) representam os mecanismos neurofisiológicos associados à memória, na qual o hipocampo tem um papel crucial. A doença de Alzheimer (DA) caracteriza-se por uma acumulação de placas amilóides extracelulares, compostas maioritariamente por péptidos β-amilóide (Aβ) e por tranças neurofibrilares constituídas por proteína tau hiperfosforilada. Assim, Aβ é considerado causar DA, levando às perdas e disfunção sináptica subjacentes aos défices cognitivos associados a esta patologia neurodegenerativa. No entanto, o papel dos astrócitos, nomeadamente na atividade sináptica na DA continua pouco esclarecido. O presente estudo pretende definir o impacto dos astrócitos na plasticidade sináptica hipocampal, particularmente em LTP e LTD, bem como avaliar marcadores astrocíticos, em condições não-patológicas e de DA. Para mimetizar a DA, as fatias de hipocampo foram incubadas com o peptídeo Aβ1-42 solúvel (exposição aguda, 50 nM, durante 40 min) ou administrado intracerebroventricularmente (icv, 0,5 mM) em murganhos C57Bl/6 jovens adultos. Além disso, também foi usado o modelo animal triplo transgénico da DA, os murganhos 3xTgAD.Realizaram-se registos de eletrofisiologia nos neurónios piramidais presentes na região CA1 na via proveniente dos colaterais de Schaffer e mediu-se LTD primeiramente em condições de exposição aguda a Aβ1-42. Os resultados obtidos demonstram que a Aβ1–42 teve um impacto robusto na amplitude de LTD, levando a um desvio de LTD para LTP. Para silenciar a contribuição dos astrócitos na modulação da plasticidade sináptica, utilizámos a gliotoxina L-α-aminoadipato (L-AA), previamente validada na indução da patologia astrocítica. A incubação de fatias do hipocampo com L-AA (100 µM, 2 h) não teve efeito na amplitude LTD em condições não-patológicas (controlo). No entanto, a exposição a L-AA em condições patológicas de DA reverteu significativamente os efeitos de Aβ1-42 na plasticidade sináptica, levando a uma recuperação da amplitude de LTD.Os animais injetados (icv) foram sujeitos a testes comportamentais para avaliar o desempenho de tarefas dependentes do hipocampo e, os murganhos injetados (icv) com Aβ1-42 apresentaram défices significativos de memória quando comparados com os injetados com veículo. À semelhança dos efeitos observados em condições de exposição aguda a Aβ1-42, a LTD e também LTP foram significativamente comprometidas em comparação com os murganhos injetados com veículo. Adicionalmente fez-se estudos imunohistoquímicos para identificar as proteínas astrocíticas, proteína acídica fibrilar glial (GFAP) e S100β, em cortes transversais de fatias do hipocampo de murganhos injetados (icv). Os resultados revelaram um aumento na imunorreatividade da GFAP em animais Aβ1-42. Em concordância com os estudos de exposição aguda a Aβ1-42, a incubação com L-AA apenas teve efeito na amplitude de LTD sob condições que mimetizam a DA (Aβ1-42 icv), revertendo significativamente os efeitos de Aβ1-42 na plasticidade sináptica, recuperando o prejuízo na LTD. Contrariamente, em condições não-patológicas o L-AA diminuiu significativamente a LTP, sendo este efeito menos evidente em condições de DA (Aβ1-42 icv). Ademais, a gliotoxina (L-AA) aumentou a imunorreatividade de GFAP observado em condições controlo (veículo icv) e não tendo efeito significativo na reatividade dos astrócitos em condições de DA. Estes dados reforçam a interferência desta gliotoxina na função astrocítica e a ideia de que os astrócitos são cruciais para a regulação da plasticidade sináptica, em especial na LTD em condições de DA.A plasticidade sináptica foi avaliada em murganhos 3xTgAD (11 meses) onde se observou uma tendência para um aumento na amplitude LTP comparado com murganhos não transgénicos (nonTg). Além disso, as fatias de hipocampo de murganhos 3xTgAD exibiram uma intensa reatividade astrocítica avaliada pela imunorreatividade de GFAP nas regiões CA1 e CA3. A disfunção astrocítica induzida por L-AA pareceu reverter as alterações em LTP observadas em 3xTgAD. Em fatias de ambos os grupos de animais a incubação com L-AA causou um aumento da GFAP.Este trabalho apresenta fortes evidências de que os astrócitos estão disfuncionais em condições de DA, comprometendo a plasticidade sináptica hipocampal e a memória, suportando o conceito de que os astrócitos podem ser um apropriado alvo para o desenvolvimento de novos tratamentos para a DA.
Astrocytes, the largest cell population in the brain, have a key role in neuronal function and metabolism and in the control of blood brain barrier. Increasing evidences support the existence of a bidirectional communication between neurons and astrocytes in the control of brain function, giving rise to the concept of ‘tripartite synapse’, which postulates that astrocytes are the third active element of synapses with the capacity of fine-tune synaptic plasticity. The synaptic plasticity, such as the long-term potentiation (LTP) and long-term depression (LTD), constitute the neurophysiological mechanisms of memory, a process in which hippocampus has a key role. Alzheimer’s disease (AD) is characterized by the accumulation of extracellular amyloid plaques, composed mainly by amyloid-β (Aβ) peptide, and by neurofibrillary tangles constituted by hyperphosphorylated tau protein. Aβ peptides are considered to be a causative agent of AD, which can cause synaptic loss and dysfunction that underlie the cognitive and memory deficits associated to this neurodegenerative disorder. However, the role of astrocytes, namely on synaptic function under AD conditions, is still not completely understood. The present study aims to define the impact of astrocytes on hippocampal synaptic plasticity, in particular on LTP and LTD, as well as to evaluate the astrocytic markers in physiological and AD-like conditions. To mimic AD-like conditions, hippocampal slices were incubated with soluble Aβ1–42 (acute exposure, 50 nM, for 40 min) or administrated intracerebroventricularly (icv, 0.5 mM) in young adult C57Bl/6 mice. Moreover, a transgenic AD animal model, 3xTgAD mice, was used.Electrophysiological recordings in the Schaffer collaterals-CA1 pyramid synapses were performed and LTD was first measured under acute exposition to Aβ1–42. The data obtained showed that Aβ1–42 had a robust impact on LTD amplitude, leading to a shift of LTD toward LTP, compared with control mice. To silence astrocytic contribution in shaping synaptic plasticity we used the gliotoxin L-α-aminoadipate (L-AA), previously validated to induce astrocyte pathology. Incubation of hippocampal slices with L-AA (100 µM, 2 h) had no effect on LTD amplitude in non-pathological conditions (control). However, treatment with L-AA under AD-like conditions significantly reverted the effects of Aβ1–42 on synaptic plasticity, rescuing LTD impairment.The icv-injected mice were behaviorally characterized using hippocampal-dependent tasks, and it was observed a memory deficit in icv Aβ1-42 mice when compared with vehicle mice. Similarly, to that observed in hippocampal slices acutely exposed to Aβ1–42, in icv Aβ1-42 injected mice the hippocampal LTD and also LTP were significantly compromised, as compared with icv-vehicle mice. Furthermore, immunohistochemical analysis probing for astrocytic markers, such as the glial fibrillary acidic protein (GFAP) and S100β were performed in transverse hippocampal sections obtained from slices of icv-vehicle and Aβ1–42 injected mice. The results showed an increase in GFAP immunoreactivity in slices from icv Aβ1–42 injected mice. In agreement with our data obtained in conditions of acute Aβ1–42 exposure, the incubation of hippocampal slices with the gliotoxin (L-AA) had no effect on LTD in control conditions. However, under AD-like conditions (icv injection), L-AA significantly reverted the effects of Aβ1–42 on synaptic plasticity, rescuing LTD impairment. By contrast in non-pathological conditions, the LTP was significantly decreased by L-AA, being this effect less evident in icv Aβ1–42 injected mice. Moreover, it was observed that this gliotoxin (acute exposure) increased hippocampal GFAP immunoreactivity in physiological conditions, but in AD-like conditions decrease the effect was the opposite. These data reinforce that indeed this gliotoxin was interfering with astrocytes function and these glial cells had a prominent role in shaping synaptic function, contributing to synaptic plasticity impairment, mainly LTD, in AD-like conditions.We also evaluated the hippocampal synaptic plasticity in the 3xTgAD mice (with 11 months old) that showed a tendency to an increase in hippocampal LTP amplitude compared with littermates non-transgenic (nonTg) mice. Moreover, the slices from 3xTgAD exhibited an increased astrocytic reactivity, assessed by GFAP immunoreactivity in CA1 and CA3 regions of hippocampus. The astrocytes blunting triggered by L-AA tend to rescue the LTP alterations observed in 3xTgAD. The incubation of LAA of hippocampal slices from both 3xTgAD and nonTg mice seemed to cause an increase in GFAP immunoreactivity.Overall, the current work demonstrates strong evidences that in AD-like conditions, the astrocytes are dysfunctional, impairing hippocampal synaptic plasticity and memory. Thus, these studies support that astrocytes can be viewed as a valid target for the development of novel treatments for AD.
Outro - 016684-PTDC/NEU-NMC/4154/2014 (POCI-01-0145-FEDER-016684) - Papel dos astrócitos no controlo da memória - foco nos recetores de adenosina A2A - Fundação para a Ciência e Tecnologia
Outro - COMPETE POCI-01-0145-FEDER-007440 - Trabalho multidisciplicar no âmbito da neurociência cognitiva na saúde e na doença - Fundação para a Ciência e a Tecnologia.
Pereira, Joana Sofia da Cruz. "The effects of antipsychotics in astrocytic plasticity and social behavior in an animal model of schizophrenia". Master's thesis, 2016. http://hdl.handle.net/1822/46675.
Texto completoSchizophrenia is a debilitating psychiatric disorder that affects approximately 1% of the population and is characterized by psychotic events, as well as cognitive and negative symptoms, namely impairments in social interaction. The discovery of drugs that are able to reduce the psychotic symptoms of the disorder helped to shed some light on the mechanisms involved in the etiology of schizophrenia. However, the high complexity of the disease along with the adverse side effects associated with antipsychotic drugs seem to build a long road to the desired treatment of this severe disorder. Functional and structural studies have reported abnormalities in multiple brain areas, namely the hippocampus, one of the particular regions in which the proliferation of stem cells occurs in the adult brain. Importantly, impairments in adult neurogenesis have been described in the brains of schizophrenic patients. However, the possible role of newly formed glial cells and astrocytic plasticity in the etiology of this disorder and in the effects of antipsychotic drugs remains largely unknown. In the present study, a neurodevelopmental animal model of schizophrenia based in the prenatal exposure to alkylating agent methylazoxymethanol (MAM) was used to evaluate the impact of different classes of antipsychotic (AP) drugs in gliogenesis, astrocytic remodeling and social behavior in rats. Animals exposed to MAM in the prenatal period (GD17) were treated in adulthood with a first generation AP (haloperidol), two second generation AP´s (clozapine and risperidone) and a third generation AP (aripiprazole). The results revealed significant impairments in social behavior, gliogenesis and astrocytic morphology in animals prenatally exposed to MAM. While chronic treatment with aripiprazole was able to revert the impairments in social behavior and restore the levels of gliogenesis, the first and second generation AP´s haloperidol, clozapine and risperidone revealed a specific effect in restoring the detrimental effects of MAM exposure in astrocytic morphology and complexity. However, no significant differences in the expression of astrocytic-related genes were observed in the hippocampus. In conclusion, these results suggest that gliogenesis and astrocytic plasticity may play a key role in social behavior in the context of schizophrenia. Furthermore, the effects of different classes of AP drugs in these phenomena may pave a new way in the treatment of the negative symptoms of schizophrenia.
A esquizofrenia é uma doença psiquiátrica debilitante, que afeta aproximadamente 1% da população e que é caracterizada por fenómenos psicóticos, bem como por sintomas cognitivos e negativos, nomeadamente distúrbios em interação social. A descoberta de fármacos que reduzem os sintomas psicóticos da doença contribuiu para o avanço no conhecimento de mecanismos afetados no contexto da esquizofrenia. No entanto, a alta complexidade da doença aliada aos efeitos secundários adversos dos antipsicóticos afastam a possibilidade de um tratamento eficaz para esta grave doença. Estudos funcionais e estruturais mostram que várias áreas estão afetadas nesta doença, nomeadamente o hipocampo, uma das poucas estruturas onde a proliferação de células estaminais ocorre no cérebro adulto. Curiosamente, já foi mostrado que a neurogénese adulta encontra-se afetada nos cérebros de pacientes com esquizofrenia. No entanto, o papel de células gliais recentemente formadas e plasticidade de astrócitos na origem desta doença bem como os efeitos de antipsicóticos a este nível é ainda altamente desconhecido. Neste estudo, o modelo animal de esquizofrenia de injeção pré-natal do agente alquilante acetato de metilazoximetanol (MAM), foi usado para avaliar o impacto de antipsicóticos (AP) de diferentes classes em gliogénese, remodelação de astrócitos maduros e comportamento social em rato. Animais expostos a MAM durante o período pré-natal (GD17) foram tratados em idade adulta com um AP de primeira geração (haloperidol), dois de AP’s de segunda geração (clozapina e risperidona) e um AP de terceira geração (aripiprazole). Os resultados mostram distúrbios significativos ao nível do comportamento social, da gliogénese e da morfologia astrocítica em animais expostos a MAM durante o período pré-natal. Embora o tratamento crónico com aripiprazole tenha permitido reverter os distúrbios em comportamento social e recuperar os níveis gliogénese, os AP’s de primeira e segunda geração haloperidol, clozapina e risperidona mostraram um efeito específico relativamente à recuperação dos efeitos prejudiciais da exposição a MAM na morfologia e complexidade astrocítica. No entanto, não foram encontradas diferenças significativas relativamente à expressão de genes relacionados com astrócitos no hipocampo. Em conclusão, estes resultados indicam que a gliogénese e plasticidade astrocítica parecem estar a ter um papel fundamental ao nível de comportamento social no contexto da esquizofrenia. Além disso, os efeitos de fármacos AP de diferentes classes nestes fenómenos podem ajudar a construir um novo caminho para o tratamento dos sintomas negativos da esquizofrenia.
Carbone, M., S. Duty y Marcus Rattray. "Riluzole elevates GLT-1 activity and levels in striatal astrocytes". 2012. http://hdl.handle.net/10454/5907.
Texto completoLANA, DANIELE. "A study on cholinergic signal transduction pathways involved in short term and long term memory formation in the rat hippocampus. Molecular and cellular alterations underlying memory impairments in animal models of neurodegeneration". Doctoral thesis, 2014. http://hdl.handle.net/2158/850894.
Texto completoPierre, Wyston Chadwick. "Développement d’une nouvelle stratégie neuroprotectrice efficace et d’une méthode de quantification précoce non invasive des lésions de la matière blanche cérébrale immature sur un modèle animal". Thesis, 2020. http://hdl.handle.net/1866/25554.
Texto completoVery premature infants are particularly vulnerable to inflammatory white matter injury (WMI) which increases the risk of long-term cognitive and neurodevelopmental disorders in this population. The use of magnetic resonance imaging (MRI) in this population has allowed non-invasive assessment of the progression of WMI and a better understanding of the pathology. WMI is associated with activation of microglia and astrocytes and the production of pro-inflammatory mediators, including interleukin 1 (IL-1). Using a model of inflammatory WMI induced by intracerebral injection of lipopolysaccharides (LPS), we first evaluated the changes in DNA methylation during the acute phase (24 h) and the chronic phase (21 days) of inflammation. We then determined the ability of multimodal MRI to detect the lesion and the therapeutic response to an IL-1 receptor antagonist. Finally, using an antagonist and an allosteric modulator of the IL-1 receptor, we evaluated in vitro the contribution of IL-1 signaling during the acute phase of the modulation of microglia and astrocytes activation by LPS. We have shown the presence of persistent alteration DNA methylation profile in the brain that was associated with pathways involved in neurodevelopment and immune response. In addition, the application of multimodal MRI in our model made it possible to evaluate in vivo the lesion and the therapeutic response during the acute phase (24 h) of the inflammation. The changes at the MRI correlated to post-mortem evaluation by immunostaining. In vitro, LPS induce a mixed response of microglia and astrocytes which evolved over time toward a pro-inflammatory and neurotoxic phenotype. Although IL-1 is highly expressed by microglia and astrocytes, its inhibition has a limited effect on the modulation of glial activation due to the multitude of pathways activated by LPS during the acute phase of inflammation.
Bahia, P. K., Marcus Rattray y R. J. Williams. "Dietary flavonoid (-)epicatechin stimulates phosphatidylinositol 3-kinase-dependent anti-oxidant response element activity and up-regulates glutathione in cortical astrocytes". 2008. http://hdl.handle.net/10454/9035.
Texto completoFlavonoids are plant-derived polyphenolic compounds with neuroprotective properties. Recent work suggests that, in addition to acting as hydrogen donors, they activate protective signalling pathways. The anti-oxidant response element (ARE) promotes the expression of protective proteins including those required for glutathione synthesis (xCT cystine antiporter, gamma-glutamylcysteine synthetase and glutathione synthase). The use of a luciferase reporter (ARE-luc) assay showed that the dietary flavan-3-ol (-)epicatechin activates this pathway in primary cortical astrocytes but not neurones. We also examined the distribution of NF-E2-related factor-2 (Nrf2), a key transcription factor in ARE-mediated gene expression. We found, using immunocytochemistry, that Nrf2 accumulated in the nuclei of astrocytes following exposure to tert-butylhydroquinone (100 microM) and (-)epicatechin (100 nM). (-)Epicatechin signalling via Nrf2 was inhibited by wortmannin implicating a phosphatidylinositol 3-kinase-dependent pathway. Finally, (-)epicatechin increased glutathione levels in astrocytes consistent with an up-regulation of ARE-mediated gene expression. Together, this suggests that flavonoids may be cytoprotective by increasing anti-oxidant gene expression.
Leitão, Ricardo Alexandre Gomes. "Role of aquaporin-4 in methamphetamine-induced blood-brain barrier dysfunction and cerebral edema formation". Doctoral thesis, 2017. http://hdl.handle.net/10316/40920.
Texto completoMethamphetamine (METH) is a powerful psychostimulant drug of abuse that has gained worldwide popularity, and its use originates severe health problems. Despite extensive characterization of METH-induced neurotoxicity over the last years, many questions remain unanswered. Several reports have demonstrated that oxidative stress, mitochondrial dysfunction, and neuroinflammation are some of the neurotoxic features of METH. More recently, it was shown that METH compromises the blood-brain barrier (BBB) and causes a disturbance in the water homeostasis leading to brain edema. Additionally, it is well known that astrocytes play a crucial role in modulating BBB structure and function, as well as in regulating brain water content. However, the effect of METH on the crosstalk between brain endothelial cells (ECs) and astrocytes has never been addressed before. Also, water fluxes that take place between the different compartments of the brain, and between brain parenchyma and the blood are highly controlled. Thus, disturbances in this well-regulated homeostasis cause brain edema, which will have deleterious effects on brain function. Importantly, the water transport at BBB is regulated by water channels, aquaporins (AQPs), and AQP4 is the most important at the Central Nervous System, being express on astrocytic endfeet in contact with brain vessels. Brain edema is a hallmark of several neuropathologies, and METH consumption is not an exception. Yet, to date, nothing is known about the role of AQP4 under METH conditions. Furthermore, AQP4 has two isoforms, M1 and M23, and the ratio M1/M23 regulates water homeostasis since M23 stabilizes the channel function but M1 disrupts the AQP4 structure. Taking into consideration all the gaps in this field, it is urgent to clarify the role of AQP4 in METH-induced BBB dysfunction and brain edema formation. The present thesis is divided into 5 chapters. In chapter 1 is presented a review of the literature about the different themes that were explored in the laboratory and detailed in the following chapters. In chapter 2, the impact of METH on astrocytes-ECs crosstalk was investigated with a particular interest in the role of tumor necrosis factor alpha (TNF-α). After observing that METH increased TNF-α released by both astrocytes and ECs, it was also proved that this proinflammatory cytokine was responsible for endothelial permeability through the activation of nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) pathway. These in vitro results were corroborated by animal studies showing an increase of BBB permeability and TNF-α levels in the mice striatum, which was prevented by NF-κB pathway blockade. Overall, it was shown that TNF-α/NF-κB signaling pathway has a key role in METH-induced BBB dysfunction. Next, in chapter 3, it was investigated the direct effect of METH on AQP4 system concluding that METH, besides BBB dysfunction, is also able to induce a cytotoxic brain edema and depressive-like behavior. Curiously, AQP4 was shown to have a predominant role of such alterations since its inhibition prevented all the effects observed in mice. Moreover, AQP4 via reactive oxygen species (ROS) production was involved in cell swelling and altered astrocyte morphology triggered by METH since AQP4 knockdown or its pharmacological blockade, as well as an antioxidant treatment (namely vitamin C) were able to prevent METH effects in astrocytes. In conclusion, AQP4 was identified as a new target against METH-induced neurogliovascular dysfunction and depressive-like behavior. Following the results observed in chapter 2 and 3, a new strategy to counteract the negative effects of METH was applied by using a natural flower product. Thus, in chapter 4, it was proved that parthenolide (PTL), a feverfew plant extract, has an anti-inflammatory role and prevented METH-induced BBB permeability and brain edema. Additionally, TNF-α via activation of its receptor 1 (TNFR1) was involved in astrocytic swelling induced by METH. In sum, PTL plays a beneficial role against neuroinflammation and neurogliovascular dysfunction triggered by METH. Finally, in chapter 5, a general discussion is presented. Overall, the present work shows that METH interferes with brain water homeostasis and BBB function, culminating in behavioral abnormalities. Moreover, both neuroinflammation and oxidative stress are involved in such negative effects of METH, and new strategies to counteract these deleterious consequences were identified, such as AQP4 blockade and the use of PTL.
A metanfetamina (MET) é uma droga de abuso muito viciante com grande popularidade mundial, e que causa sérios problemas de saúde. Apesar da extensa caracterização da sua neurotoxicidade nos últimos anos, muitas questões continuam sem resposta. Alguns estudos têm mostrado que o stresse oxidativo, a disfunção mitocondrial e a neuroinflamação são alguns dos efeitos nefastos da MET. Mais recentemente demonstrou-se que a MET interfere com a função normal da barreira hematoencefálica (BHE), causando alterações na homeostase da água o que pode levar a uma situação de edema cerebral. Para além disso, sabe-se também que os astrócitos têm um papel muito importante na modulação da estrutura e função da BHE, bem como na regulação do conteúdo de água cerebral. No entanto, o efeito da MET na comunicação entre as células endoteliais (CEs) e os astrócitos nunca foi estudado anteriormente. Por outro lado, o movimento de moléculas de água entre os diferentes compartimentos do cérebro e entre o parênquima cerebral e a corrente sanguínea ocorre de forma controlada. Assim, distúrbios nesta homeostase irão causar uma situação de edema, o qual terá um impacto negativo na função cerebral. O transporte de água na BHE é regulado por canais de água, denominados aquaporinas (AQPs), sendo que a AQP4 é a mais importante no Sistema Nervoso Central, e encontra-se expressa nas terminações dos astrócitos que contactam com os vasos cerebrais. De facto, o edema cerebral ocorre em muitas neuropatologias, e o consumo de MET não é exceção. No entanto, o papel da AQP4 nos efeitos da MET é ainda desconhecido. Além disso, a AQP4 tem duas isoformas, a M1 e a M23, e é a sua proporção que regula a homeostase da água, uma vez que a presença da isoforma M23 estabiliza a função do canal de água enquanto a isoforma M1 causa alterações na função da AQP4. Deste modo, é importante esclarecer o papel da AQP 4 na disfunção da barreira hematoencefálica e na formação do edema cerebral induzidos por MET. A presente tese está dividida em 5 capítulos. No capítulo 1 é apresentada uma revisão da literatura sobre os diversos temas estudados no laboratório e detalhados nos capítulos seguintes. No capítulo 2 investigou-se o efeito da MET na comunicação entre astrócitos e CEs com particular interesse no papel do fator de necrose tumoral alfa (TNF-α). Depois de mostrar um aumento da libertação de TNF-α induzido por MET, quer pelos astrócitos quer pelas CEs, provou-se que esta citocina pró-inflamatória estava envolvida no aumento da permeabilidade das CEs através da ativação da via de sinalização do fator nuclear kappa B (NF-κB). Estes resultados foram corroborados por estudos em animais onde se observou um aumento da permeabilidade da BHE e dos níveis de TNF-α no estriado de murganho, efeitos estes que foram prevenidos pelo bloqueio da via do NF-κB. Deste modo, conclui-se que a via de sinalização do TNF-α/NF-κB está envolvida na disfunção da BHE induzida por MET. De seguida, no capítulo 3 avaliou-se o impacto direto da MET no sistema da AQP4 e foi possível demonstrar que esta droga de abuso, para além de induzir uma disfunção da BHE, também originou um edema cerebral citotóxico e comportamento do tipo depressivo. Curiosamente, a AQP4 teve um papel predominante nestas alterações já que o seu bloqueio preveniu todos os efeitos observados nos murganhos. In vitro foi também possível comprovar o papel importante da AQP4 via produção de espécies reactivas de oxigénio já que o silenciamento deste canal de água ou a sua inibição farmacológica, bem como a exposição a um antioxidante (vitamina C) preveniram as alterações morfológicas induzidas pela MET nos astrócitos. Em conclusão, a AQP4 foi identificada como um alvo importante para prevenir as alterações neurogliovasculares e comportamento depressivo induzidos por MET. Na sequência dos efeitos negativos da MET observados nos capítulos 2 e 3, colocou-se a hipótese de uma nova abordagem com um produto natural de origem vegetal. Deste modo, no capítulo 4 concluíu-se que o partenolídeo (PTL), um extrato obtido da artemísia dos prados (Tanacetum parthenium), tem um papel anti-inflamatório e preveniu o aumento da permeabilidade da BHE e formação de edema cerebral induzidos por MET. Mais ainda, foi possível demonstrar que o TNF-α, através da ativação do seu recetor TNFR1, estava envolvido no aumento de volume dos astrócitos observado na presença de MET. Assim, este trabalho permitiu concluir que o PTL tem um feito benéfico em condições de neuroinflamação e disfunção neurogliovascular induzidos por MET. Por último, o capítulo 5 inclui uma discussão geral sobre os resultados obtidos nos capítulos anteriores. Em conclusão, esta tese permitiu mostrar que a MET interfere não só com a homeostase da água no cérebro, mas também com a função da BHE, e que estes efeitos podem conduzir a alterações comportamentais. Para além disso, demonstrou-se ainda que a neuroinflamação e o stresse oxidativo estão subjacentes aos efeitos negativos causados pela MET e foram identificadas duas abordagens para prevenir estes efeitos, tais como o bloqueio da AQP4 e o uso do partenolídeo.
Meehan, Crystal Lea. "The role of early versus late gestational maternal immune activation in the aetiology of schizophrenia: establishing a rat model with a focus on cognitive symptomology and neuroinflammation". Thesis, 2018. http://hdl.handle.net/1959.13/1385728.
Texto completoSchizophrenia is a debilitating disorder of neurodevelopmental origins that likely stems from the cumulative action of a range of genetic and environmental factors. Epidemiological evidence has identified maternal infection during gestation as one significant environmental risk factor for the development of the disorder. Evidence from animal models has further validated the link between maternal immune activation (MIA) in the absence of an active infection and the later life development of schizophrenia-like pathology in the offspring. In particular, work in mouse models has suggested that the gestational time at which MIA occurs can alter the behavioural and neurobiological phenotype displayed. Specifically, that MIA in late gestation is involved in schizophrenia-relevant cognitive dysfunction and altered NMDA receptor expression, whereas MIA in early gestation is more closely associated with behavioural deficits reminiscent of positive symptomology and dopaminergic neurotransmission. The aim of the current thesis was to extend the mouse findings to another species, the rat, and further explore the effects of MIA. In addition to producing a reliable rat model of schizophrenia where distinct behavioural and neurological phenotypes associated with schizophrenia are produced following MIA at either early or late gestational time-points (gestational day 10 or 19, respectively), the current thesis extends on previous work by examining the schizophrenia biomarker of mismatch negativity and assessing the neuroinflammatory state of offspring. Behavioural assessments revealed that MIA in either early or late gestation produced transient impairments in working memory and reductions in PPI. In these behavioural studies, there was no clear distinction between a dopamine and glutamate-related behavioural phenotype based on the gestational timing of exposure. However, early but not late gestation MIA did produce alterations in the dopaminergic system of males, as indicated by increased dopamine 1 receptor mRNA in the nucleus accumbens. EEG experiments demonstrated that although the male rat brain is able to generate human-like (adaptation-independent) mismatch responses (MMRs), and although MIA (regardless of gestational timing) does alter MMRs, it does not do so in a manner comparable with schizophrenia. Immunohistochemical techniques revealed that MIA does result in subtle neuro-immune changes in adult offspring, with an increase in microglial immunoreactivity identified in the frontal white matter of late, but not early, gestation MIA animals. Furthermore, a strong trend towards increased astrocyte immunoreactivity that approached significance was identified in the prefrontal cortex of late, but not early MIA offspring. The combined results have demonstrated that MIA during the chosen gestational time-points are sufficient to disrupt neurodevelopmental processes producing long-term alterations in behavioural and neuropathological measures relevant to schizophrenia. However, the phenotype characterised here deviates slightly from previous findings from mouse models indicating potential differences in the critical periods of neurodevelopmental susceptibility to MIA exposure between the rat and mouse. Importantly this research has provided insights into the underlying neuro-immune changes which may contribute to the behavioural abnormalities seen in adult MIA offspring and has provided evidence that MIA in rats can alter the prominent schizophrenia relevant electrophysiological biomarker of adaptation-independent MMRs, providing a basis to further investigate these measures and their underlying mechanisms.