Global ETD Search

481	The roles of mTOR essential adaptor proteins, raptor and rictor, in temporal lobe epileptogenesis Godale, Christin 23 August 2022 (has links) No description available. Neurosciences Epilepsy mTOR Dentate gyrus Hippocampus mTORC1 mTORC2
482	Mechanisms of short-term plasticity at hippocampal mossy fiber synapses using direct patch clamp and variance-mean analysis / 海馬苔状線維シナプスの短期可塑性メカニズムの直接パッチクランプと量子解析による解明 / カイバコケジョウセンイシナプスノタンキカソセイメカニズムノチョクセツパッチクランプトリョウシカイセキニヨルカイメイ田中護, Mamoru Tanaka 22 March 2022 (has links) 博士(理学) / Doctor of Philosophy in Science / 同志社大学 / Doshisha University シナプス可塑性海馬 synaptic plasticity hippocampus
483	Die Ultrastruktur von Aktiven Zonen in hippocampalen Moosfaserboutons / The ultrastructure of active zones in hippocampal mossy fiber boutons Lichter, Katharina January 2023 (has links) (PDF) In nervous systems, synapses precisely orchestrate information transfer and memory formation. Active zones (AZ) are specialized subcellular compartments at the presynaptic mesoscale which process synaptic transmission on an ultrastructural level. The AZ cytomatrix including the essential scaffold protein Rab3 interacting molecule (RIM) enables exocytosis of synaptic vesicles. A deficiency of the locally most abundant protein isoform RIM1α diminishes long-term potentiation in a complex central mammalian synapse – the connection of hippocampal mossy fiber boutons (MFB) to cornu ammonis (CA)3 pyramidal neurons. Behaviourally, these mice present with learning impairment. The present MD thesis addresses the so far unknown three-dimensional (3D) AZ ultrastructure of MFBs in acute hippocampal slices of wild-type and RIM1α-/- mice. In a first set of experiments, a standardized protocol for near-to-native synaptic tissue preparation at MFBs using high-pressure freezing and freeze substitution and 3D modelling using electron tomography was developed and established. Based on the excellent preservation of synaptic tissue using this protocol, the AZ ultrastructure in both genotypes was quantified in detail up to an individual docked synaptic vesicle using custom-written programming scripts. The experiments demonstrate that deficiency of RIM1α leads to multidimensional alter-ation of AZ 3D ultrastructure and synaptic vesicle pools in MFBs. (Tightly) docked synaptic vesicles – ultrastructural correlates of the readily releasable pool – are reduced, decentralized, and structurally modified, whereas the more distant vesicle pool clusters more densely above larger and more heterogenous AZ surfaces with higher synaptic clefts. The present thesis contributes to a more comprehensive understanding regarding the role of RIM1α for (tight) vesicle docking and organization at MFBs. Furthermore, the precise 3D ultrastructural analysis of MFB AZs in this thesis provides the necessary mor-phological basis for further studies to correlate synaptic ultrastructure with presynaptic plasticity and memory dysfunction in RIM1α-/- mice using advanced electrophysiological and behavioral techniques. / In Nervensystemen bedürfen Informationsweitergabe und Gedächtnisformation eines präzisen Zusammenspiels von Synapsen in Zeit und Raum. Synaptische Transmission basiert strukturell auf mesoskopischen cytosolischen Kompartimenten an der präsynaptischen Membran, sogenannten Aktiven Zonen (AZ). Ihre Cytomatrix, bestehend aus zentralen Gerüstproteinen wie Rab3 interacting molecule (RIM), ermöglicht eine schnelle Freisetzung synaptischer Vesikel. Die Defizienz der lokal häufigsten Isoform RIM1α resultiert an einer komplexen zentralen Säugersynapse, die des hippocampalen Moosfaserboutons (MFB) zu im Cornu ammonis (CA)3 befindlichen Pyramidalzellen, in einer dezimierten Langzeitplastizität. Auf Verhaltensebene zeigen diese Mäuse eine reduzierte Lernfähigkeit. Die vorliegende Dissertation widmet sich grundlegend der bisher unbekannten dreidimensionalen (3D) AZ-Ultrastruktur des MFB in akuten Hippocampusschnitten der adulten Wildtyp- und RIM1α-Knock-Out-Maus (RIM1α\(^{-/-}\)). In einer methodischen Entwicklungsphase wurde ein neuartiges, anspruchsvolles Protokoll der nahezu artefaktfreien (near to native) Synapsenpräparation am MFB mittels Hochdruckgefrierung und Gefriersubstitution sowie der 3D-Modellierung mittels Elektronentomographie etabliert. In einer zweiten Experimentier- und Analysephase ermöglichte die hochwertige synaptische Gewebeerhaltung in beiden Genotypen eine standardisierte, auf Programmierskripten basierte Quantifizierung der AZ-Ultrastruktur bis auf die Ebene eines individuell gedockten synaptischen Vesikels. Dieser Dissertation gelingt der Nachweis, dass eine Defizienz von RIM1α zu einer multidimensionalen ultrastrukturellen Veränderung der AZ und ihres Vesikelpools am MFB führt. Neben einer Reduktion, Dezentralisierung und strukturellen Veränderung (eng) gedockter Vesikel – der ultrastrukturellen Messgrößen von unmittelbar freisetzungsfähigen Vesikeln – verdichtet sich der distaler lokalisierte Vesikelpool auf zugleich größeren, heterogenen AZ-Flächen mit erweitertem synaptischem Spalt. Vorliegende Untersuchungen tragen zum Verständnisgewinn über eine zentrale Rolle von RIM1α für das Docking und die Organisation von Vesikeln der AZ im MFB bei. Darüber hinaus stellen die präzisen ultrastrukturellen Analysen eine morphologische Grundlage für weiterführende Studien mit Hilfe modernster Techniken dar, beispielsweise über die Auswirkungen der geänderten RIM1α\(^{-/-}\) AZ-Ultrastruktur auf die präsynaptische Plastizität sowie in Korrelation zum Gedächtnis und Lernen der Tiere. Hippocampus Neurowissenschaften Exzitatorische Synapse Synaptische Transmission Synaptische Vesikel ddc:610
484	Anatomical and Behavioral Sequelae of Fetal Brain Transplants in Rats With Trimethyltin-Induced Neurodegeneration Woodruff, M. L., Baisden, R. H., Nonneman, A. J. 17 October 1991 (has links) The effect of transplants of either fetal hippocampal or dorsal ventricular ridge (DVR) tissue into the brains of adult male rats exposed to TMT was determined for two behavioral tasks. Administration of TMT produced deficits in acquisition and performance of an operant differential reinforcement of low response rates (DRL) schedule and learning in the Morris water maze. The fetal transplants developed well within the TMT damaged brains of the adult rats and numerous axons could be shown to cross the host transplant interface. The transplants significantly recuced the DRL deficit produced by exposure to TMT. However, the TMT-induced deficit in water maze acquisition was made significantly worse by the hippocampal transplants. The improvement in DRL performance is attributed to the effect on the host brain of an unidentified trophic substance produced by the transplants. However, this positive effect may not protect the brain sufficiently to produce recovery in tasks demanding more complex neural computations than are required to withhold lever-press responses. The transplant-induced deficit observed in some aspects of water maze acquisition and performance may be attributable to either a tumor-like deleterious effect of the mass of the transplant or to abnormal neuronal activity transmitted from the transplant to the host brain. The results of the present study, and those from other similar studies, suggest that transplants of fetal tissue may be useful in producing changes in the brain of an animal exposed to an environmental neurotoxin, but that research should be focused upon development of transplant methodology that will minimize adverse effects of the grafts. hippocampus neural transplantation rat recovery of function trimethyltin Biomedical Sciences
485	Persistence of Long-Lasting Serotonin Depletion by P-Chloroamphetamine in Rat Brain After 6-Hydroxydopamine Lesioning of Dopamine Neurons Perry, Kenneth W., Kostrzewa, Richard M., W. Fuller, Ray 12 October 1995 (has links) In rats that had been treated neonatally with 6-hydroxydopamine (6OHDA) to deplete striatal dopamine more than 95%, a single injection of p-chloroamphetamine (pCA) (5 or 10 mg/kg, i.p.) resulted in depletion of striatal and hippocampal serotonin at 1 week to a similar extent as in control rats. These findings suggest that striatal dopamine is not essential to the long-lasting depletion of brain serotonin by pCA in rats. 6-hydroxydopamine dopamine hippocampus p-chloroamphetamine serotonin striatum Biomedical Sciences
486	Spermine Depresses NMDA, K/AMPA and GABA<sub>a</sub>-Mediated Synaptic Transmission in the Rat Hippocampal Slice Preparation DiScenna, Pascal G., Ferchmin, Pedro A., Eterovic, Vesna A., Teyler, Timothy J. 06 June 1994 (has links) The effects of spermine, an endogenous polyamine, were examined in area CA1 of the rat hippocampal slice preparation. Spermine, at low millimolar concentrations, rapidly and potently depressed NMDA and K/AMPA-mediated population EPSPs, and GABA-mediated monosynaptic population IPSPs. These effects contrast with its well-known potentiation of NMDA currents at lower concentrations. Our results raise the possibility that the large intracellular stores of spermine that are released after various neural insults could act as an endogenous neuroprotective mechanism by limiting excessive calcium entry. CA1 hippocampus N-Methyl-d-aspartate polyamine spermine
487	Cholinergic and Non-Cholinergic Septo-Hippocampal Projections: A Double-Label Horseradish Peroxidase-Acetylcholinesterase Study in the Rabbit Baisden, Ronald H., Woodruff, Michael L., Hoover, Donald B. 02 January 1984 (has links) The existence of a massive cholinergic projection from cells in the medical septal nucleus (MS) and nucleus of the diagonal band (DB) to the hippocampal formation has been recognized for some time. However, the actual percentages of cholinergic and non-cholinergic neurons in the MS and DB which project to the hippocampus have not been reported. A procedure which combines horseradish peroxidase (HRP) and acetylcholinesterase (AChE) histochemistry in the same tissue was used to determine these percentages in the rabbit. Less than 50% of the neurons in the MS and DB which were labeled with reaction product following an HRP injection into the dorsal hippocampus also stained for AChE. Moreover, 70% of all neurons containing HRP reaction product were located in the DB, but neurons in the DB could not be differentiated from those in the MS on the basis of size or morphology. These data are taken to indicate that much of the MS-DB hippocampal projection is not cholinergic. Substance P is suggested as another possible transmitter within this anatomical system. cholinergic diagonal band hippocampus horseradish peroxidase septal area Biomedical Sciences
488	Classification of Neuronal Nicotinic Acetylcholine Receptors in Rat CA1 Hippocampal Interneuron Subpopulations Defined by Calcium-Binding Protein mRNA Expression Burgon, Richard M. 27 July 2006 (has links) (PDF) In this study, the single-cell relative quantitative mRNA expression of three Calcium-binding proteins (CaBPs; calbindin, calretinin, parvalbumin) and eight nicotinic acetylcholine receptor (nAChR) subunits (alpha2-alpha5, alpha7, beta2-beta4) from interneurons from the stratum radiatum or stratum oriens within the CA1 region of rat hippocampi was analyzed using quantitative real time RT-PCR. Eighty-seven percent of the interneurons examined expressed CaBP mRNA. Parvalbumin mRNA was detected in 64%, while calbindin and calretinin expression was detected in 26% and 40% of interneurons, respectively. CaBP expression was not exclusive; the average number of CaBP mRNA detected per interneuron of the 47 interneurons examined for CaBP was 1.3. There was no significant difference between the proportion of CaBPs expressed in the stratum radiatum compared to the stratum oriens. However, interneurons from the stratum radiatum expressed significantly higher relative levels of mRNA for calbindin. Eighty-four percent of the 31 interneurons examined for both CaBP and nAChR subunits expressed nAChR subunit mRNA; the average number of nAChR subunits detected per interneuron was 2.9. Furthermore, of the 24, 140, and 168 possible combinations of 2-, 3-, and 4-way co-expression between CaBP+nAChR mRNA, respectively, only two significant 3-way combinations were detected: parvalbumin+a3+a5 and parvalbumin+alpha5+beta4. This study reports that subpopulations of nAChR-containing interneurons defined by quantitative CaBP mRNA expression or CaBP+nAChR co-expression do exist within the CA1 region of the hippocampus. nicotinic acetylcholine ion channel hippocampus interneuron Neuroscience and Neurobiology
489	Expression Of Nicotinic Acetylcholine Receptor mRNA As a Function Of Age In Whole Hippocampus Preparations From Wistar Rats Welch, Kasey C. 21 April 2008 (has links) (PDF) Whole hippocampus preparations, isolated bilaterally, from untreated Wistar rats at various ages (10-90 days old) were analyzed for the mRNA expression of the alpha 2, alpha 3, alpha 4, alpha 5, alpha 7, beta 2, beta 3, and beta 4 neuronal nicotinic acetylcholine receptor subunits. To do so, RNA was isolated from acutely isolated hippocampal samples, converted to cDNA by means of a reverse transcription reaction, then analyzed with quantitative real-time PCR to determine the relative levels of the mRNAs the cells were expressing at the age when the samples were obtained. The relative expression of the levels of RNA were then compared across age groups by subunits and across subunits by ages. The results suggest that all eight subunits are expressed throughout the life of the rat and that the subunit expression for the Hippocampus varies only slightly as a rat develops. nicotinic acetylcholine hippocampus mRNA Wistar cDNA development Neuroscience and Neurobiology
490	The role of hippocampal glucocorticoid receptors in status epilepticus Kraus, Kimberly 23 August 2022 (has links) No description available. Neurology status epilepticus glucocorticoid receptor hippocampus seizures stress

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