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The Global ETD Search service is a free service for researchers
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Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 41 to 50 of 62 (0.073 seconds)Spelling suggestions: "subject:"morris water gaze"" "subject:"morris water maze""
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Paměťové a behaviorální vlivy biperidenu, M1-selektivního antagonisty, u laboratorního potkana / Mnemonic and behavioural effects of biperiden, an M1-selective antagonist, in the ratPopelíková, Anna January 2017 (has links)
Due to the persisting lack of reliable animal models of cognitive impairment with good translational validity, researches strive to discover new ways and tools to replicate symptoms of human neurodegenerative diseases in rodents. Recently, biperiden, an M1- selective muscarinic antagonist, has been proposed as a potential tool for generating fast screening models of mnemonic deficits such as seen in patients with Alzheimer's disease. Being highly selective for the M1 receptor, a predominant type of muscarinic acetylcholine receptors in the brain involved in cognitive processes, it has been speculated to possibly only influence cognition without causing sensorimotor side effects. Studies assessing the usability of this drug reported conflicting results. We have decided to expand the experimental data and evaluate biperiden's validity in several variants of the Morris water maze. The results of this study showed no significant effect of biperiden on cognitive flexibility, tested by reversal learning. In delayed-matching-to-position paradigm, which tests assesses working memory, we found a difference in performance between the two experimental groups; however, it cannot be unequivocally attributed to a memory impairment. No effects were observed in visible platform task, confirming a lack of...
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Effect of spatial learning on the protein tyrosine phosphatase STEPMcAnulty, Christina 04 1900 (has links)
La protéine Striatal-Enriched Protein Tyrosine Phosphatase (STEP) joue un rôle important dans la régulation de la force synaptique, notamment par sa capacité à s'opposer au renforcement synaptique et à encourager la dépression à long terme. Des niveaux anormaux de STEP peuvent altérer l'apprentissage et la mémoire et ont été impliqués dans une variété de troubles neuropsychiatriques tels que la maladie d'Alzheimer. Bien qu'il existe de nombreux substrats et régulateurs connus de STEP, la gamme complète des molécules capables d'intéragir avec STEP reste à découvrir. Dans cette étude, nous avons utilisé deux méthodes complémentaires afin de trouver de nouveaux intéracteurs de STEP: l'identification par proximité à la biotine (BioID) et la purification par affinité couplée à la spectrométrie de masse (AP-MS). Nous avons ensuite utilisé le protocole de la piscine de Morris chez le rat afin de déterminer l'effet d'un apprentissage spatial sur les niveaux de STEP61, STEP non phosphorylé, le récepteur 1 de la neuromédine U (NMUR1) et la neurologine-1 (NLGN-1) dans l'hippocampe des rats. Nous avons observé qu'un environnement naturel riche en indices distaux radicalement différents les uns des autres était plus propice à l'apprentissage spatial qu'un environnement plus uniforme avec uniquement des images disponibles pour être utilisées comme indices distaux. Nous avons également constaté que la protéine STEP61 totale, la STEP non-phosphorylé et la NMUR1 n'ont pas changé à la suite d'un apprentissage spatial, mais que la NLGN-1 change dans l'un des protocoles utilisés. Enfin, nous n'avons pas été en mesure d'induire des changements dans les niveaux de STEP grâce à l'utilisation de NMDA ou de DHPG pour induire une dépression à long-term dans des cultures hippocampiques dissociées. Des recherches supplémentaires seront nécessaires afin de déterminer la nature des nouvelles interactions découvertes, ainsi que la façon dont celles-ci sont affectées par un apprentissage spatial, et le rôle de la dépression à long terme ou de la potentialisation à long terme dans ces processus. / The Striatal-Enriched Protein Tyrosine Phosphatase (STEP) plays an important role in the regulation of synaptic strength, namely through its ability to oppose synaptic strengthening and encourage long term depression. Abnormal levels of STEP can impair normal learning and memory, and have been implicated in a variety of neuropsychiatric disorders such as Alzheimer's Disease. Though there are many known substrates and regulators of STEP, the full range of STEP interactions remains to be discovered. In this study, we used Proximity-dependent Biotin Identification (BioID) and affinity-purified mass spectrometry (AP-MS) in order to identify novel interactors of STEP. We then used the Morris water maze (MWM) protocol in rats to determine the effect of a spatial learning event on STEP61, non-phosphorylated STEP, neuromedin U receptor 1 (NMUR1) and neurologin-1 (NLGN-1) levels in the hippocampus of rats. Throughout our experiments, we determined that a natural environment rich with dramatically different distal cues was more conducive to spatial learning than a more uniform environment with only images available to be used as distal cues. We found also that total STEP61, non-phosphorylated-STEP, and NMUR1 did not change as a result of a spatial learning event, but that NLGN-1 was increased in one of the protocols used. Finally, we were unable to induce changes in STEP levels through the use of NMDA or DHPG to induce long-term depression (LTD) in dissociated hippocampal cultures. Further research is required in order to determine the nature of the novel interactions discovered, as well as how these are impacted by a spatial learning event, and the role of LTD or long-term potentiation (LTP) in these processes.
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Type 2 Diabetes Leads to Impairment of Cognitive Flexibility and Disruption of Excitable Axonal Domains in the BrainYermakov, Leonid M. 04 June 2019 (has links)
No description available.
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Porovnání transgenního a streptozotocinového modelu Alzheimerovy choroby: validace systému IntelliCage pro behaviorální fenotypizaci / Comparison of transgenic and streptozotocin models of Alzheimer in rats: validation of IntelliCage system for behavioral phenotypizationSvobodová, Eva January 2021 (has links)
Animal models of Alzheimer's disease display cognitive insufficiencies which mimic human symptoms and occur at a given age or post-treatment time. Animals are typically tested using canonical behavioral tests, lasting minutes and taking place mostly in the non-active period of the daily cycle. Animals are exposed to certain amounts of manipulation-induced stress. Our work represents a validation study for the rat behavioral system IntelliCage. The tested individuals live freely in a group and their behavior is monitored continuously. It is however possible to set up individual tests for each animal or a group of animals. The rats are not subject to human manipulation and hence the results are not affected by manipulation-induced stress. We tested early cognitive impairment in the transgenic rat model TgF344-AD at 6 - 8 months of age. Further, we tested two most common protocols of the streptozotocin model, i.e. single dose of intracerebroventricular 3 mg/kg streptozotocin and double dose 48 hrs apart. Results were compared with the canonical Morris Water Maze (MWM) test. In the MWM test, transgenic animals did not differ from controls in any of the studied parameters. The streptozotocin model displayed a deficit only in the double dose group. However in the IntelliCage, transgenic animals displayed...
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確認PIAS1在促進大鼠空間學習與記憶的嶄新角色之探討 / Identification of a novel role of PIAS1 in facilitation of spatial memory formation in rats劉彥呈 Unknown Date (has links)
本實驗室於先前利用莫氏水迷津試驗篩選學習快與學習慢的大白鼠,取出其海馬迴組織並進行聚合酶連鎖反應差異顯示(PCR differential display),結果顯示學習快與學習慢的大白鼠背側海馬迴之間共有98個cDNA片段有差異表現。把這些cDNA片段進行定序並利用BLAST資料庫比對,其中一個cDNA片段為大白鼠的pias1 [protein inhibitor of activated STAT1 (signal transducer and activator of transcription 1)] 基因。為了瞭解pias1基因的表現是否和空間學習有所關聯,隨機把大白鼠分成兩組,一組為有訓練組別(有空間線索與隱藏式平台),另一組為無訓練的組別(沒有平台,作為游泳的控制組)同時進行莫氏水迷津學習試驗。試驗完畢,取出海馬迴組織進行即時定量聚合酶連鎖反應與西方墨點法來分析PIAS1的mRNA與蛋白質的表現。結果顯示有水迷津訓練的大白鼠,其PIAS1的mRNA與蛋白質表現皆明顯的高於無訓練的組別。為了更進一步確認PIAS1在空間學習中所扮演的角色,我們利用基因轉染的技術,轉染PIAS1 siRNA至大白鼠海馬迴CA1區域抑制PIAS1的表現。我們發現轉染PIAS1 siRNA至CA1區域會抑制大白鼠在水迷津的行為表現,然而轉染野生型的PIAS1質體基因至CA1區域卻會增進水迷津試驗的學習能力,同時我們也以西方墨點法發現,當轉染PIAS1 siRNA會增加STAT1 Tyr701的磷酸化,而轉染PIAS1 WT則會抑制STAT1 Tyr701的磷酸化。為了探討PIAS1促進記憶形成的分子機制,我們發現當轉染突變型的STAT1 Y701F質體基因至CA1區域,會抑制PIAS1 siRNA所造成記憶的損害。這些實驗結果代表著PIAS1會抑制STAT1 Tyr701的磷酸化,而PIAS1促進記憶的形成可能是藉由抑制STAT1 Tyr701的磷酸化而達成。另外,我們也單獨轉染突變型的STAT1 Y701F質體基因至CA1區域,水迷津實驗結果顯示會促進空間記憶的形成。目前PIAS1在免疫的角色已有許多研究證實,但是本篇研究是第一個提出PIAS1會參與哺乳類動物學習與記憶形成探討。 / Our laboratory has previously identified 98 cDNA fragments by using PCR differential display from rat dorsal hippocampus that are differentially expressed between fast learners and slow learners from the water maze learning task. After sequencing and BLAST analysis, one of these cDNA fragments encodes the rat pias1 [protein inhibitor of activated STAT1 (signal transducer and activator of transcription 1)] gene. In order to determine whether pias1 gene expression is associated with spatial learning, naïve rats were randomly assigned to the trained group (with visual cues and platform been present) and the non-trained group (without the platform as the swimming control). The dorsal hippocampus from these animals was dissected out at the end of the training and was subjected to RNA and protein extraction for real-time PCR and Western blot analysis of PIAS1 expression, respectively. Results revealed that the pias1 mRNA level and protein level was both higher in the hippocampus of trained rats than non-trained rats. To further examine the role of PIAS1 involved in spatial learning and memory, the specific PIAS1 siRNA was used to knockdown the expression of PIAS1 in rat hippocampal CA1 region. We found that transfection of PIAS1 siRNA to the CA1 area impaired water maze performance, whereas transfection of the wild-type PIAS1 DNA plasmid to the CA1 area facilitated water maze performance in rats. Meanwhile, PIAS1 siRNA increased STAT1 phosphorylation at Tyr701 whereas PIAS1 WT decreased STAT1 phosphorylation at this residue. In the examination of molecular mechanism underlying PIAS1-mediated memory facilitation, we have found that transfection of the STAT1 Y701F mutant plasmid antagonized the memory-impairing effect of PIAS1 siRNA, whereas transfection of STAT1 Y701F alone facilitated spatial memory formation. These results together suggest that one of the molecular mechanisms underlying PIAS1-mediated memory facilitation is through decreased STAT1 phosphorylation at Tyr701. All these manipulations did not affect visible platform learning in rats. In addition to the well documented role of PIAS1 in the immune system, here we have been the first to demonstrate a novel role of PIAS1 involved in spatial memory formation in rats.
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NEUROPROTECTIVE EFFECTS OF POSTINJURY LITHIUM TREATMENT: DETERMINING THE OPTIMAL DOSING PARADIGM AND ASSESSING POTENTIAL MECHANISMS OF ACTIONEakin, Katharine 10 May 2010 (has links)
Traumatic brain injury (TBI) has a dramatic impact on our society in terms of mortality, morbidity, and inherently high financial costs. Formidable research efforts are being addressed to the identification of neuroprotective agents capable of ameliorating the neurological outcome after TBI. Preclinical studies have recently demonstrated lithium to be a promising neuroprotective agent for both acute ischemic brain injury and chronic neurodegenerative disease. In light of these encouraging data, we designed a lateral fluid-percussion injury (FPI) study aimed at investigating the role of early post-traumatic administration of lithium as a strategy for reducing TBI-induced motor and cognitive deficits. The optimal dose of this agent and the time window for its administration have been determined on the basis of data derived from the assessment of motor and cognitive functioning in experimental animals, as well as from the stereological quantification of neuronal survival (PID 7) within the CA3 and hilar regions of the hippocampus ipsilateral to the FPI. In addition, we attempted to elucidate the mechanisms underlying the neuroprotective properties of this drug via western blot analysis of levels of the pro-apoptotic marker caspase-3 (PID 1, 7) and two neuroplasticity markers, growth associated protein-43 (GAP-43) and brain-derived neurotrophic factor (BDNF) (PID 1, 7, 21). Our findings indicate that low-dose lithium chloride (0.125 or 0.25 mmol/kg), given either 30 min or 8 hr after lateral FPI significantly ameliorates injury-induced cognitive and motor impairment. Specifically, cell survival in the CA3 region of the hippocampus of the injured lithium-treated animals (but not in the hilus) was significantly increased compared to injured vehicle-treated animals. Western blot analyses revealed a significant increase in GAP-43 levels on PID 7 in injured animals when treated with lithium, indicating a possible mechanism for lithium-induced neuroprotection. In contrast, BDNF levels were relatively unchanged until PID 21, and caspase-3 activation was not observed at all, suggesting that these proteins play less significant roles in the observed neuroprotective effects of lithium treatment after lateral FPI. Early administration of lithium, within 8 hours after TBI, holds promise as an effective therapy to ameliorate postinjury neurobehavioral deficits and warrants further investigation in clinical TBI studies.
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Rôle des noyaux réuniens (Re) et rhomboïde (Rh) du thalamus dans la plasticité structurale associée à la persistance d’un souvenir spatial chez le rat / Role of the reuniens and rhomboid thalamic nuclei in the structural plasticity associated with spatial memory persistence in ratKlein, Marie-Muguet 14 December 2018 (has links)
La théorie standard de la consolidation postule que l’information est initialement encodée dans le réseau hippocampo-cortical, créant une trace mnésique au sein de l’hippocampe (HIP). Au cours du temps, la trace est transférée au cortex préfrontal médian (CPFm), et notamment au cortex cingulaire antérieur (CCA). À la suite de lésion des noyaux reuniens et rhomboide (ReRh), réciproquement connectés à l’HIP et au CPFm, le souvenir spatial se forme normalement mais ne persiste pas dans le temps. Ainsi, nous avons évalué l’impact de la lésion ReRh sur la plasticité structurale sous-tendant la persistance du souvenir spatial. Des rats lésés ReRh ont été entraînés en piscine de Morris et testés pour un rappel récent (5j) ou ancien (25j). La plasticité structurale a été évaluée par coloration de Golgi dans l’HIP et le CPFm. La lésion ReRh n'avait aucun effet sur l’apprentissage et le souvenir récent, mais a altéré celui du souvenir ancien. Dans le CA1 des rats Sham, le nombre d'épines dendritiques a été augmenté aux deux délais (5 et 25j) post-acquisition comparé au niveau basal. Après la lésion, cette augmentation n’a pas persisté entre 5 et 25j. Dans le CCA des rats Sham, le nombre d'épines dendritiques a été augmenté uniquement à 25j comparé au niveau de base, une modification non observée chez les rats lésés. Ainsi, à la lésion des noyaux ReRh perturbe la plasticité structurale sous-tendant le souvenir spatial ancien indiquant un rôle crucial de ces noyaux dans l’établissement d’un souvenir persistant. / The standard model of systemic consolidation posits that information is initially encoded in the hippocampo-neocortical network, the memory trace being first created in the sole hippocampus (HIP). Over time, the trace is progressively transferred to modules of the medial prefrontal cortex (mPFC), particularly to the anterior cingulate cortex (ACC). Following lesions of the thalamic reuniens and rhomboid nuclei (ReRh), which are reciprocally connected with both the Hipp and mPFC, a spatial memory forms normally but does not persist (Loureiro et al 2012). Therefore, we assessed the impact of ReRh lesions on structural plasticity underlying spatial memory persistence. Male Long-Evans rats subjected to NMDA lesions of the ReRh nuclei were trained in the Morris Water Maze and tested for retrieval of recent (5 days) or remote (25 days) memory. Structural plasticity was assessed on Golgi-stained material in the HIP and CPFm. ReRh lesions had no effect on learning and recent memory, but altered remote memory. In the HIP (CA1) of sham-operated rats, the spine number was increased at both 5 and 25 days post-acquisition vs baseline. After ReRh lesion, the increase did not persist from 5 to 25 days. In the mPFC (ACC) of sham-operated rats, the spine number was increased only at 25 days vs baseline, a modification not observed in ReRh lesioned rats. Thus, following lesion of ReRh nuclei, structural plasticity underlying remote spatial memory formation does not operate correctly in the mPFC and Hip, pointing to a crucial role of ReRh in memory persistence.
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CNS Targets for GH and IGF-1 : Emphasis on Their Regulation in Relation to Cognitive ProcessesLe Grevès, Madeleine January 2005 (has links)
<p>The interest for the growth hormone/insulin-like growth factor-1 (GH/IGF-1) axis and its role in the central nervous system (CNS) has grown during the past decade. GH has been associated with psychological functions as sleep, mood, general well-being and learning and memory. The present thesis is a contribution to clarify the functions and mechanisms involved in the actions of GH and IGF-1 in the CNS. A variant of the GH receptor (GHR) gene transcript lacking exon 3 (GHR3-) was cloned from ovine choroid plexus epithelial cells and tissue. The GHR3- transcript has previously only been identified in human tissue. Further, an anatomical study of the localization of GHR mRNA in the rat brain stem and spinal cord was carried out by the use of in situ hybridization. High densities of GHRs were found in areas associated with the regulation of food intake, sleep and nociception, functions known to be influenced by the GH/IGF-1 axis. The interaction with the opioid system was studied by an acute treatment with morphine. The levels of the transcripts for GHR and GHBP in the rat hippocampus and spinal cord were decreased 4 h after the injection of the opiate and restored to normal levels after 24 h. Young and aged rats injected with GH or IGF-1 showed differential gene regulation of subunits of the NMDA subtype of glutamate receptor in the hippocampus. This indicates an age-related difference in the sensitivity to GH/IGF-1 mediated effects on memory functions. Moreover, hypophysectomized rats treated with GH showed improved performance in the Morris water maze, a spatial memory task. The effect was accompanied with an increase in transcripts for NMDA receptor subunits and its associated membrane anchoring PSD-95 protein. Taken together, the results suggest that GH and/or IGF-1 play important roles in mechanisms associated with cognitive functions.</p>
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CNS Targets for GH and IGF-1 : Emphasis on Their Regulation in Relation to Cognitive ProcessesLe Grevès, Madeleine January 2005 (has links)
The interest for the growth hormone/insulin-like growth factor-1 (GH/IGF-1) axis and its role in the central nervous system (CNS) has grown during the past decade. GH has been associated with psychological functions as sleep, mood, general well-being and learning and memory. The present thesis is a contribution to clarify the functions and mechanisms involved in the actions of GH and IGF-1 in the CNS. A variant of the GH receptor (GHR) gene transcript lacking exon 3 (GHR3-) was cloned from ovine choroid plexus epithelial cells and tissue. The GHR3- transcript has previously only been identified in human tissue. Further, an anatomical study of the localization of GHR mRNA in the rat brain stem and spinal cord was carried out by the use of in situ hybridization. High densities of GHRs were found in areas associated with the regulation of food intake, sleep and nociception, functions known to be influenced by the GH/IGF-1 axis. The interaction with the opioid system was studied by an acute treatment with morphine. The levels of the transcripts for GHR and GHBP in the rat hippocampus and spinal cord were decreased 4 h after the injection of the opiate and restored to normal levels after 24 h. Young and aged rats injected with GH or IGF-1 showed differential gene regulation of subunits of the NMDA subtype of glutamate receptor in the hippocampus. This indicates an age-related difference in the sensitivity to GH/IGF-1 mediated effects on memory functions. Moreover, hypophysectomized rats treated with GH showed improved performance in the Morris water maze, a spatial memory task. The effect was accompanied with an increase in transcripts for NMDA receptor subunits and its associated membrane anchoring PSD-95 protein. Taken together, the results suggest that GH and/or IGF-1 play important roles in mechanisms associated with cognitive functions.
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The role of reactive oxygen species in traumatic brain injury : Experimental studies in the ratMarklund, Niklas January 2001 (has links)
Traumatic brain injury (TBI) is a major cause of mortality and disability. As common sequelae in survivors of TBI are disabling functional, emotional and cognitive disturbances, improved treatment of TBI patients is urgently needed. At present, no neuroprotective pharmacological treatment exists. The formation of oxygen-centered free radicals, reactive oxygen species (ROS), is considered an important event in the pathophysiology of TBI. In the present thesis, the fluid percussion (FPI) and controlled cortical contusion injury models of TBI in rats were used. Two nitrone radical scavengers, α-Phenyl-N-tert -butyl nitrone (PBN) and the sulfonated analogue of PBN, 2-sulfophenyl-N-tert-butyl nitrone (S-PBN), were used as tools to study the role of ROS in TBI. Pre-treatment with PBN (30 mg/kg) improved morphological and cognitive outcome after severe controlled cortical contusion injury. Treatment with equimolar doses of PBN and S-PBN administered 30 min after FPI followed by a 24 h intravenous infusion improved morphological outcome. Only S-PBN improved cognitive outcome as assessed in the Morris Water Maze. Surprisingly, pre-treatment with PBN increased the number of apoptotic neurons at 24 hours after injury despite a reduced lesion volume. FPI resulted in an early increase in glucose uptake and a reduction in regional cerebral blood flow (rCBF) assessed by fluoro-2-deoxyglucose (FDG) and hexamethylpropylene amine oxime (HMPAO) autoradiography. At 12 h, a marked reduction in glucose uptake and rCBF ensued. These TBI-induced changes were attenuated by PBN and S-PBN pre-treatment. A method for ROS detection using 4-hydroxybenzoate in conjunction with microdialysis was evaluated. The results showed a marked increase in ROS formation as assessed by an increase in the single adduct 3,4-DHBA, lasting 90 min after injury. In a separate study, PBN and S-PBN equally reduced 3,4-DHBA formation despite no detectable brain concentrations of S-PBN at 30 or 60 min post-injury. In conclusion, ROS play an important role in the injury process after TBI. We report a method for ROS detection with potential clinical utility. Nitrones increased ROS elimination and improved functional and morphological outcome. Nitrone treatment may have a clinical potential as a neuroprotective concept in TBI.
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