Global ETD Search

11	The Effect of Mechanical Stimulation on Osteocyte Chemo-sensitivity Zhang, Jia Ning 27 November 2012 (has links) Osteocytes are believed to be the mechanosensory cells that detect and respond to mechanical loading. Physiological loading by oscillatory fluid flow (OFF) activates osteocytes to increase intracellular calcium concentration and release prostaglandin E2 (PGE2). Osteocytes are also sensitive to chemical stimulations such as serotonin, which can also increase PGE2 release. However, it is unclear whether mechanical stimulation can influence osteocyte sensitivity towards serotonin. In this thesis, MLO-Y4 osteocyte-like cells were subjected to serotonin with or without precondition by OFF, the responses of intracellular calcium and PGE2 release were measured. Serotonin increased intracellular calcium and PGE2 release in osteocytes. The effects were significantly reduced by OFF precondition, suggesting mechanical precondition by OFF can reduce osteocyte sensitivity towards serotonin. In terms of mechanisms, OFF- and serotonin-induced calcium responses depended on intra- and extracellular calcium stores. ATP was found to partially mediate OFF modulation of serotonin-induced PGE2 release but not calcium. Osteocyte Oscillatory Fluid Flow Serotonin Calcium PGE2 0541
12	The Effect of Mechanical Stimulation on Osteocyte Chemo-sensitivity Zhang, Jia Ning 27 November 2012 (has links) Osteocytes are believed to be the mechanosensory cells that detect and respond to mechanical loading. Physiological loading by oscillatory fluid flow (OFF) activates osteocytes to increase intracellular calcium concentration and release prostaglandin E2 (PGE2). Osteocytes are also sensitive to chemical stimulations such as serotonin, which can also increase PGE2 release. However, it is unclear whether mechanical stimulation can influence osteocyte sensitivity towards serotonin. In this thesis, MLO-Y4 osteocyte-like cells were subjected to serotonin with or without precondition by OFF, the responses of intracellular calcium and PGE2 release were measured. Serotonin increased intracellular calcium and PGE2 release in osteocytes. The effects were significantly reduced by OFF precondition, suggesting mechanical precondition by OFF can reduce osteocyte sensitivity towards serotonin. In terms of mechanisms, OFF- and serotonin-induced calcium responses depended on intra- and extracellular calcium stores. ATP was found to partially mediate OFF modulation of serotonin-induced PGE2 release but not calcium. Osteocyte Oscillatory Fluid Flow Serotonin Calcium PGE2 0541
13	Regulation of hematopoietic stem cell migration and function Durand, Ellen Marie 04 June 2015 (has links) Hematopoietic stem cell transplantation (HSCT) is an effective treatment for blood disorders and autoimmune diseases. Following HSCT, these cells must successfully migrate to the marrow niche and replenish the blood system of the recipient. This process requires both non-cell and cell-autonomous regulation of hematopoietic stem and progenitor cells (HSPCs). A transgenic reporter line in zebrafish allowed the investigation of factors that regulate HSPC migration and function. To directly observe cells in their endogenous microenvironment, confocal live imaging was used to track runx1:GFP+ HSPCs as they arrive and lodge in the niche. A novel cellular interaction was observed that involves triggered remodeling of perivascular endothelial cells during niche formation. A chemical screen identified the TGF-beta pathway as a regulator of HSPC and niche interactions. Chemical manipulation of HSPCs was used to improve engraftment and repopulation capability following transplantation. Runx1:GFP fish treated with prostaglandin E2 (PGE2) during embryogenesis exhibit increased runx1+ cells in the AGM and CHT, consistent with previous in situ data. This increase in HSPCs is maintained into adulthood, even in the absence of prolonged PGE2 exposure. Kidney marrow from these treated fish can outcompete control marrow in transplantation assays. The ability of PGE2 to confer a long-term advantage on sorted mouse marrow populations in competitive transplantation assays was tested. I found that PGE2-treated short-term (ST)-HSCs, but not long-term (LT)-HSCs show enhanced transplantability in recipients compared to control animals. My studies demonstrate that the effects of PGE2 on HSC function persist over substantial time despite transient exposure. A population of short-term HSCs can engraft and give rise to long-term multilineage reconstitution following PGE2 treatment. Collectively, our studies have led to novel insights regarding the pathways involved in HSC migration, homing, and repopulation. Biology Cellular biology Hematopoiesis hematopoietic stem cell PGE2 transplantation
14	Neuropeptides in the RVM Promote Descending Facilitation and Abnormal Pain Marshall, Timothy McCoy January 2008 (has links) The neuropeptides dynorphin and cholecystokinin (CCK), and their associated pronociceptive effects were investigated in the RVM. Utilizing a nerve-injury model (SNL), RT-PCR analysis revealed increases (p<0.05) of prodynorphin mRNA, and bradyinkin, B1- and B2-receptor mRNA, post-SNL, 14-days, 2-days, and 14-days, respectively. Administration of dynorphin into the RVM produced both acute and long-lasting (>30-days) tactile hypersensitivity. Administration of the B1-antagonist, DALBK and the B2-antagonist, Hoe-140, into the RVM significantly attenuated dynorphin-induced tactile hypersensitivity. Nerve-injury induced tactile hypersensitivity was significantly reversed by RVM administration of dynorphin antiserum or the B2-antagonist, Hoe-140. These data suggest that dynorphin is up-regulated in the RVM in nerve-injury, and via the activation of bradykinin receptors in the RVM, produces abnormal pain. Like dynorphin, CCK is up-regulated in the RVM in nerve-injury, with studies suggesting that elevated levels of CCK in the RVM mediate pronociceptive activity through CCK2 receptor activation, resulting in enhanced spinal nociceptive transmission. At present, it is unknown what key neurotransmitters are mediating this RVM CCK-driven effect at the level of the spinal cord. Here, spinal cerebrospinal fluid (CSF) levels of serotonin (5-HT) and prostaglandin E2 (PGE2) were measured in the lumbar spinal cord in naÃ¯ve rats following CCK administration into the RVM. Following RVM CCK microinjection, an approximate 5-fold increase in spinal (CSF) PGE2 levels was observed, as compared to baseline controls. PGE2 levels showed a progressive increase with peak levels observed at the 80-minute post-CCK injection timepoint, whereas 5-HT levels in the spinal CSF remained unchanged following CCK administration into the RVM. This release of PGE2 coincided with the timecourse for CCK-induced mechanical hypersensitivity. Administration of the CCK2-antagonist YM022 prior to CCK into the RVM, significantly attenuated (>50%) the release of PGE2 in the spinal cord. The non-selective COX-inhibitor naproxen and the 5-HT3 antagonist ondansetron, both administered intrathecally, significantly attenuated RVM CCK-induced hindpaw tactile hypersensitivity. In summary, these data suggest a bradykinin- or CCK2-receptor antagonist could be used alone or in conjunction with current therapies in the treatment of chronic pain. rostral ventromedial medulla descending facilitation cholecystokinin dynorphin bradykinin receptor PGE2
15	Prostaglandin E2 in Oxidopamine-induced Neuronal Inflammation and Injury Kang, Xu 19 September 2017 (has links) No description available. Pharmaceuticals PGE2 EP2 PD COX-2 Neuroinflammation 6-OHDA
16	The Effects of Dietary Lipids on Bone Chemical, Mechanical and Histological Properties in Japanese Quail (Coturnix C. Japonica) Liu, Dongmin 12 July 2000 (has links) Japanese quail were used as animal models in four experiments to evaluate the effects of supplementing diets with different lipids on bone chemical, mechanical, and histological properties. In Exp. 1, laying hens were fed a basal diet containing either 5% soybean oil (SBO), hydrogenated soybean oil (HSBO), chicken fat (CF), or menhaden fish oil (FO). The addition of SBO in the maternal diet increased the levels of total n-6 fatty acids and arachidonic acid (AA, 20:4n-6) in yolk and tibial bones of newly hatched progeny (P<0.01), whereas the maternal FO diet elevated the concentrations of total n-3 fatty acids, eicosapentaenoic acid (EPA, 22:5n-3), docosahexaenoic acid (DHA, 22:6n-3) and total saturated acid, but greatly decreased the amount of AA in both egg and progeny tibiae (P<0.01). The maternal HSBO diet resulted in the accumulation of trans-18:1 fatty acid in egg yolks and tibiae at hatch. The addition of FO or HSBO to the maternal diet significantly lowered the ex vivo PGE2 production of tibiae in newly hatched quail compared to those from hens given the SBO or CF diets (P<0.01). In Exp. 2, the addition of different lipids in the maternal diets did not affect growth, tibial length, diameter or collagen content of the progeny. However, supplementing the maternal diet with 5 % FO or HSBO increased the percent bone ash , increased bone pyridinium crosslinks of collagen, enlarged the cartilaginous proliferative and hypertrophied zones, increased diaphyseal cortical thickness of the tibiae in embryos (P<0.05), and subsequently increased tibial shear force, stiffness (P<0.05) and improved cortical thickness, density and trabecular density in early growth and development of progeny compared to those from hens consuming the SBO or CF diets (P<0.05). In Exp. 3, male quail at one month of age were fed a basal diet containing either 5% SBO, HSBO, CF or FO for seven months. Long-term supplementation in the diets of different lipids did not affect body weight, food intake, tibial length or diameter, but the FO group had the highest tibial percent ash, and both FO and HSBO increased tibial mineral content in aged quail compared to those fed the SBO or CF diets (P<0.05). At 8 months of age, quail fed FO had the highest concentrations of (n-3) fatty acids (20:5n-3, 22:5n-3, 22:6n-3) but the lowest amounts of 20:4n-6 in lipids from tibial cortical bone, whereas the SBO and CF diets greatly elevated (n-6) fatty acids and 20:4n-6 levels. The HSBO diet which contains t18:1 fatty acid resulted in t18:1 accumulation in bone. Long-term supplementation with FO or HSBO increased tibial shear force, stiffness and shear stress, as well as improved cortical thickness and density compared with the SBO or CF diets ( P<.05). In Exp. 4, the addition of SBO or CF to the diet for seven months decreased tibial mineral content compared to the FO diet (P<0.05). Quail fed SBO increased collagen concentration in the tibiae (P<0.05), but the level of collagen crosslinks was higher in quail fed FO or HSBO compared to those given the SBO or CF diets (P<0.05). The PGE2 production in bone organ culture and marrow was greatly increased in quail maintained on the SBO or CF diets (P<0.05). PGE2 production in the bone microenvironment was negatively correlated with the tibial percent ash and collagen crosslinks but had a positive correlation with tibial collagen concentration. The results of these studies demonstrate that either supplementing the maternal diets with or long-term exposure to different lipids alters the chemical composition and metabolism of skeletal tissue in both embryos and aged quail. Maternal dietary SBO or CF had an adverse effect on bone growth and development in embryos. Likewise, long-term exposure to SBO or CF diet impaired bone metabolism and remodeling. In contrast, the FO or HSBO diet had beneficial effects on bone modeling in embryos and remodeling in adult quail. / Ph. D. histology crosslinks collagen PGE2 fatty acids Lipids quail mechanical properties
17	Fonctions de la phospholipase D et des récepteurs de la prostaglandine PGE2 durant la maturation des ostéoblastes, le processus de la minéralisation physiologique et la calcification cardiovasculaire / Functions of phospholipase D and PGE2 prostaglandin receptors during the maturation of osteoblasts, physiological mineralization and cardiovascular calcification process Abdallah, Dina 11 September 2014 (has links) Le métabolisme lipidique affecte la maturation et la différenciation des cellules osseuses. L'objectif de ma thèse est d'approfondir deux aspects du métabolisme lipidique mal connus, soit les actions de la phospholipase D (PLD) et celles des récepteurs de prostaglandine PGE2 pendant la différenciation des cellules. Une lignée humaine, les Saos-2 et les ostéoblastes primaires issus de calvaria de souriceaux ont servi de modèles cellulaires de la minéralisation physiologique. La culture d'aorte ex vivo sous des conditions d'hyperphosphatémie a été utilisée pour reproduire la calcification de l'aorte qui est un modèle ex vivo de calcification cardiovasculaire (CCV). Nous avons montré que l'expression et l'activité de la PLD augmentent dans les Saos-2 et les ostéoblastes primaires au bout du 5ème jour de la différenciation tandis qu'elles s'accroissent au bout du 6ème jour de traitement de l'aorte dans un milieu d'hyperphosphatémie. Les inhibiteurs de PLD diminuent l'activité de phosphatase alcaline (TNAP) dans les ostéoblastes et dans l'aorte calcifiée tandis que la surexpression de la PLD1 dans les Saos-2 l'augmente. Dans une deuxième partie de ce travail, nous avons suivi la variation d'expression des récepteurs de PGE2 au cours de la maturation des Saos-2. L'expression du gène EP3 augmente au stade tardif de la minéralisation tandis que celle d'EP4 diminue. Pour conclure, ces résultats indiquent que l'activité de la PLD en affectant l'activité de la TNAP pourrait moduler finement la minéralisation physiologique et la CCV et que la minéralisation s'accompagne d'un changement d'expression des récepteurs de PGE2, dans les Saos-2 / Lipid metabolism affects the maturation and the differentiation of bone cells. The aim of my PhD thesis is to explore two unknown sides of lipid metabolism which are the actions of phospholipase D (PLD) and those of prostaglandin PGE2 receptors during cell differentiation. Human lineage, Saos-2 cells and primary osteoblasts from calvaria of mice were used as cellular models of physiological mineralization. The ex vivo aorta culture under hyperphosphatemia conditions has been used to reproduce the calcification of the aorta, which is an ex vivo model of cardiovascular calcification (CVC). We showed that the expression and the activity of PLD increased in Saos-2 and primary osteoblasts after the fifth day of differentiation while in the aorta under hyperphosphatemia condition, PLD activity increased at the end of the sixth day. PLD inhibitors decreased the activity of alkaline phosphatase (TNAP) in osteoblasts and in calcified aorta while the overexpression of PLD1 in the Saos-2 increased it. In the second part of this work, we monitored the variation of the expression of PGE2 receptors during the maturation of Saos-2 cells. The EP3 gene expression increased in the late stage of the mineralization while that of EP4 decreased. In conclusion, these results indicated that the PLD activity by affecting the activity of TNAP could modulate the physiological mineralization and CVC. We showed that the mineralization is dependent of the change of the expression of PGE2 receptors in Saos-2 cells Phospholipase D Récepteurs PGE2 Phosphatase alcaline Phospholipase D PGE2 receptors Alkaline phosphatase 572
18	NÍVEIS SÉRICOS MATERNOS DE ESTRADIOL, ESTRIOL E PROGESTERONA EM PARTOS INDUZIDOS COM DINOPROSTONA EM GESTANTES A TERMO / MATERNAL SERUM LEVELS OF ESTRADIOL, ESTRIOL AND PROGESTERONE IN DINOPROSTONE-INDUCED LABOR IN TERM PREGNANT WOMEN Konopka, Cristine Kolling 13 July 2011 (has links) Hormonal-mediated uterine quiescence involves the maintenance of a decreased inflammatory responsiveness. However, no study has investigated whether labor induction with prostanoids is associated with changes in maternal serum hormones. The objective of this study was to determine whether changes in circulating levels of progesterone, estradiol and estriol from admission to delivery are associated with successful labor induction with dinoprostone. A cohort of 81 pregnant women at term was followed from admission to birth until delivery, during the period of 2010-2011. The study was performed at the Hospital of the Federal University of Santa Maria, a tertiary care hospital. Unselected subjects were recruited and blood samples were obtained at admission and immediately before delivery. Sixteen patients had vaginal delivery after spontaneous labor, 12 required emergency cesarean after spontaneous labor and 16 underwent elective cesarean. Thirty-seven patients had labor induction with dinoprostone. Eligible patients received a vaginal insert of dinoprostone (10 mg), and patients were followed up until delivery. Progesterone (P4), estradiol (E2) and estriol (E3) plasma level and P4/E2, P4/E3 and E3/E2 ratio changes were observed from admission to immediately before birth, and the association of these measures with the resulting clinical classification outcome (route of delivery and induction responsiveness) were assessed. Progesterone plasma level decreased from admission to delivery in patients who underwent successful labor induction with dinoprostone [vaginal and cesarean delivery after induced labor: 23% (P<0.001) and 18% (P<0.025) decrease, respectively], but not in those whose induction failed (6.4% decrease, P>0.05). Estriol and estradiol levels did not differ between groups. Successful dinoprostone-induced labor was associated with maternal progesterone level decrease along time. While a causal relationship between progesterone decrease and effective dinoprostone-induced labor can not be established, it is tempting to propose that it may contribute for progesterone withdrawal and favor labor induction in humans. / A quiescência uterina mediada por hormônios envolve a manutenção de uma responsividade inflamatória reduzida. Contudo, nenhum estudo investigou se a indução do parto com prostanóides está associada com alterações em hormônios séricos maternos. Os objetivos deste estudo foram determinar se as alterações nos níveis circulantes de progesterona, estradiol e estriol desde a admissão até o parto estão associados à indução bem sucedida do parto com dinoprostona. Uma coorte de 81 mulheres grávidas a termo foi acompanhada desde a admissão até o parto, durante o período de 2010-2011. O estudo foi realizado no Hospital da Universidade Federal de Santa Maria, um hospital de cuidados terciários. Indivíduos não selecionados foram recrutados e amostras de sangue foram obtidas na admissão e imediatamente antes do nascimento. Dezesseis pacientes tiveram parto vaginal após trabalho de parto espontâneo, 12 necessitaram a realização de cesariana de emergência após trabalho de parto espontâneo e 16 foram submetidas à cesárea eletiva. Trinta e sete pacientes tiveram indução de trabalho de parto com dinoprostona. As pacientes elegíveis receberam um pessário de inserção vaginal de dinoprostona (10 mg), e foram acompanhadas até o parto. Os níveis plasmáticos de progesterona (P4), estradiol (E2) e estriol (E3) e as relações P4/E2, P4/E3 e E3/E2 foram observadas da admissão até imediatamente antes do nascimento, e a associação destas medidas com a classificação clínica resultante foi avaliada (via de parto e resposta à indução). Os níveis plasmáticos de progesterona diminuíram desde a admissão até o nascimento em pacientes que responderam à indução com dinoprostona [parto vaginal e cesáreo após trabalho de parto induzido: redução de 23% (P<0.001) e 18% (P<0.025), respectivamente], mas não nos quais a indução falhou (redução de 6.4%, P>0.05). Os níveis de estriol e estradiol, e as relações P4/E2, P4/E3 e E3/E2 não foram diferentes entre os grupos. O sucesso da resposta à indução de parto com dinoprostona esteve associado com a redução no nível de progesterona materna ao longo do tempo. Enquanto uma relação causal entre a redução na progesterona e o trabalho de parto efetivo induzido pela dinoprostona não pode ser estabelecida, é tentador propor que possa contribuir para a retirada da progesterona e favorecer a indução do parto em humanos. Indução de parto Dinoprostona PGE2 Progesterona Estradiol Estriol. Labor induction Dinoprostone PGE2 Progesterone Estradiol Estriol. CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA
19	COROS - Correction du déficit osseux dans la mucoviscidose. / Effects of CFTR correctors in CF bone disease Delion, Martial 07 October 2016 (has links) La maladie osseuse est une complication sévère pour les patients atteints de mucoviscidose (Cystic Fibrosis, CF). Les fractures vertébrales et costales impactent les capacités pulmonaires et la clairance du mucus bronchique. La meilleure prise en charge des symptômes des patients CF a permis l’amélioration de leurs qualité et espérance de vie. Cependant malgré l’optimisation de facteurs impactant le métabolisme osseux aucune amélioration notable n’a été observée dans la fragilité osseuse. Plus de 80% des patients CF sont porteurs de la mutation F508del du gène CFTR (Cystic Fibrosis Transmembrane conductance Regulator) sur au moins un allèle. L’implication directe de la mutation F508del dans la maladie osseuse a été montrée, bien que son rôle dans le dysfonctionnement du métabolisme osseux reste encore à élucider. Notre travail a permis de mettre en évidence que la mutation F508del portée par les ostéoblastes humains est responsable d’une dérégulation importante de la voie de signalisation RANK/RANKL/OPG aboutissant à un ratio RANKL/OPG élevé, potentiateur de l’ostéoclastogénèse et de la résorption osseuse. Nous avons également mis en évidence que le contexte inflammatoire chronique de la pathologie pourrait exacerber la perte osseuse, les cellules CF étant plus sensibles à ces stimulations. Par ailleurs, nous avons montré que l’utilisation de molécules pharmaceutiques comme des correcteurs et potentiateurs de CFTR, actuellement utilisés en essais cliniques, permettent une normalisation au moins partielle des dérégulations observées des ostéoblastes CF, et apparaissent comme des nouvelles stratégies thérapeutiques. / Bone disease is a serious complication for patients with Cystic Fibrosis (CF). Rib and vertebral fractures worsen lung function and mucus clearance. Better care of CF patient’s symptoms enable an improvement in life quality and expectancy. Despite optimization of factors impacting bone metabolism no improvement was observed in bone loss of patients with CF. More than 80% CF patients carried the F508del mutation on the CFTR (Cystic Fibrosis Transmembrane Conductance Regulator) gene on at least one allele. The role of the F508del mutation in the dysfunction of bone metabolism is yet unclear, but its involvement has been already shown in clinical studies and mouse models.Our work shown that F508del mutation on human osteoblasts causes a dysregulation in the RANK/RANK-L/OPG signalling leading to a high RANK-L to OPG ratio that may improve osteoclastogenesis, and thus the bone résorption. We also show that chronic inflammatory status of CF patients could exacerbate bone loss because of a high sensitivity of osteoblasts with the F508del-CFTR mutation. In addition, we demonstrate that the use of drugs as CFTR correctors and potentiators cause an improvement of the dysregulation observed and seems to be a promising therapeutic strategy. Mucoviscidose F508del Ostéoblastes Rankl/opg Pge2 Correcteur de CFTR Cystic Fibrosis F508del Osteoblasts Rankl/opg Pge2 CFTR corrector 615
20	Modulation de la plasticité synaptique par les prostaglandines E2 à la synapse fibre moussue/cellule pyramidale CA3 en conditions physiologiques et dans un modèle murin de la maladie d'Alzheimer / Modulation of synaptic plasticity by PGE2 at mossy fiber/CA3 synapse in physiological condition and in a mouse model of Alzheimer disease Maingret, Vincent 12 December 2014 (has links) La maladie d’Alzheimer (MA) est la forme la plus commune de démence chez les personnes âgées. La maladie se caractérise par des pertes de fonctions cognitives et plusieurs études ont montré une étroite relation entre la neuroinflammation, les déficits synaptiques et la perte des fonctions cognitives dans la MA. L'importance de la composante neuroinflammatoire a été démontrée essentiellement grâce à des données épidémiologiques rapportant une prévalence diminuée de 40 à 70% chez des patients traités chroniquement par des anti-inflammatoires non stéroïdiens (AINS) pour d'autres pathologies. Les AINS sont des inhibiteurs des enzymes de synthèse des prostaglandines. Les prostaglandines sont des métabolites de l’acide arachidonique. Parmi ces prostaglandines, la PGE2 est connue pour moduler la transmission et les plasticités synaptiques dans l’hippocampe et son expression est fortement augmentée dans la maladie d’Alzheimer. De nombreux travaux rapportent l'existence de déficits synaptiques dans la MA, notamment dans l'hippocampe, siège de la mémoire et de l’apprentissage. Ces travaux se sont focalisés sur les déficits postsynaptiques à la synapse archétypique formée entre les cellules pyramidales CA3 et CA1. A l'inverse, la synapse formée entre les fibres moussues et les cellules pyramidales CA3 (FM-CA3) exprime des plasticités présynaptiques atypiques, à court et à long terme, indépendantes des récepteurs NMDA et il n'existe que très peu d'études concernant ces plasticités dans le contexte de MA. L’objectif de cette étude a été de montrer l’implication de PGE2 dans les déficits synaptiques à la synapse FM-CA3 dans un modèle murin de la MA, la souris double transgénique APPswe/PS1ΔE9 (APP/PS1). Nos résultats montrent que l’application exogène de PGE2 chez des souris sauvages entraîne un déficit de plasticité uniquement sur la potentialisation à long terme (PLT) exprimée présynaptiquement via l’activation spécifique du récepteur EP3. Nous montrons aussi que dans la souris APP/PS1, seule cette PLT présynaptique est impactée à partir de 12 mois. Enfin, ce déficit de la PLT présynaptique pour la souris APP/PS1 est réversé par un inhibiteur spécifique des récepteurs EP3 montrant ainsi un rôle clé pour la signalisation PGE2 - EP3 dans les déficits synaptiques hippocampaux de ce modèle murin de la maladie d’Alzheimer. / Alzheimer’s disease (AD) is the most common form of dementia in elder people characterized by a loss of cognitive function linked to synaptic deficits. There is considerable evidence that neuroinflammation and AD are intimately linked. The key role of neuroinflammation in the course of the disease was figured out by epidemiological studies reporting a reduced prevalence to develop AD for patients chronically treated with Non-Steroidal Anti-Inflammatory Drugs (NSAIDs). Prostaglandins are lipidic mediators derived from arachidonic acid and their synthesis is inhibited by NSAIDs. Among prostaglandins, PGE2 is known to modulate synaptic transmission and plasticity in the hippocampus and its concentration is higher in brains from AD patients. Numerous studies have reported synaptic deficits in the course of AD, mainly in the hippocampus which is essential for cognitive functions like learning or memory formation. The vast majority of these studies were focused on postsynaptic deficits at the canonical CA3-CA1 synapse. On the opposite, the synapse between mossy fiber and CA3 pyramidal cell (Mf-CA3) that express presynaptic short-term and long-term plasticity, was poorly studied in the context of AD. The aim of my project was to decipher the involvement of PGE2 in synaptic deficits in a mouse model of AD, the APPswe/PS1ΔE9 (APP/PS1). Our results show that acute application of PGE2 on wild type young mice impairs only presynaptic long term potentiation (LTP) at the Mf-CA3 synapse via the specific activation of EP3 receptor. In APP/PS1 mice, we demonstrate that the sole deficit at the Mf-CA3 synapse is an impairment of the presynaptic LTP at 12 months of age. Finally we demonstrate that the impaired presynaptic LTP in APP/PS1 mice can be rescued by the acute application of a specific EP3 receptor antagonist, pointing out the key role of PGE2 - EP3 signaling pathway in synaptic deficits in hippocampus in a mouse model of AD. Hippocampe Fibres moussues Plasticité synaptique PLT présynaptique PGE2 Maladie d’Alzheimer Hippocampus Mossy fiber Presynaptic LTP PGE2 Alzheimer's disease Synaptic plasticity

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