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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    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.
51

Proteostasis Maintenance of γ-aminobutyric Acid Type A Receptors (GABAARs)

Fu, Yanlin 23 May 2019 (has links)
No description available.
52

The blood-to-plasma ratio and predicted GABAA-binding affinity of designer benzodiazepines

Manchester, Kieran R., Waters, L., Haider, S., Maskell, P.D. 16 March 2022 (has links)
Yes / The number of benzodiazepines appearing as new psychoactive substances (NPS) is continually increasing. Information about the pharmacological parameters of these compounds is required to fully understand their potential effects and harms. One parameter that has yet to be described is the blood-to-plasma ratio. Knowledge of the pharmacodynamics of designer benzodiazepines is also important, and the use of quantitative structure–activity relationship (QSAR) modelling provides a fast and inexpensive method of predicting binding affinity to the GABAA receptor. Methods: In this work, the blood-to-plasma ratios for six designer benzodiazepines (deschloroetizolam, diclazepam, etizolam, meclonazepam, phenazepam, and pyrazolam) were determined. A previously developed QSAR model was used to predict the binding affinity of nine designer benzodiazepines that have recently appeared. Results: Blood-to-plasma values ranged from 0.57 for phenazepam to 1.18 to pyrazolam. Four designer benzodiazepines appearing since 2017 (fluclotizolam, difludiazepam, flualprazolam, and clobromazolam) had predicted binding affinities to the GABAA receptor that were greater than previously predicted binding affinities for other designer benzodiazepines. Conclusions: This work highlights the diverse nature of the designer benzodiazepines and adds to our understanding of their pharmacology. The greater predicted binding affinities are a potential indication of the increasing potency of designer benzodiazepines appearing on the illicit drugs market. / Engineering and Physical Sciences Research Council. / Research Development Fund Publication Prize Award winner, Feb 2022.
53

Chloride Homeostasis in Central Neurons

Yelhekar, Tushar January 2016 (has links)
The overall aim of the present thesis is to clarify the control of intracellular chloride homeostasis in central neurons, because of the critical role of chloride ions (Cl–) for neuronal function. Normal function of the central nervous system (CNS) depends on a delicate balance between neuronal excitation and inhibition. Inhibition is, in the adult brain, most often mediated by the neurotransmitter γ-aminobutyric acid (GABA). GABA may, however, in some cases cause excitation. GABA acts by activating GABA type A receptors (GABAARs), which are ion channels largely permeable to Cl–. The effect of GABAAR-mediated neuronal signaling - inhibitory or excitatory - is therefore mainly determined by the Cl– gradient across the membrane. This gradient varies with neuronal activity and may be altered in pathological conditions. Thus, understanding Cl– regulation is important to comprehend neuronal function. This thesis is an attempt to clarify several unknown aspects of neuronal Cl– regulation. For such clarification, a sufficiently sensitive method for measuring the intracellular Cl– concentration, [Cl–]i, is necessary. In the first study of this thesis, we examined two electrophysiological methods commonly used to estimate [Cl–]i. Both methods, here called the interpolation and the voltage-ramp method, depend on an estimate of the Cl– equilibrium potential from the current-voltage relation of GABA- or glycine-evoked Cl– currents. Both methods also provide an estimate of the membrane Cl– conductance, gCl. With a combination of computational and electrophysiological techniques, we showed that the most common (interpolation) method failed to detect changes in [Cl–]i and gCl during prolonged GABA application, whereas the voltage-ramp method accurately detected such changes. Our analysis also provided an explanation as to why the two methods differ. In a second study, we clarified the role of the extracellular matrix (ECM) for the distribution of Cl– across the cell membrane of neurons from rat brain. It was recently proposed that immobile charges located within the ECM, rather than as previously thought cation-chloride transporter proteins, determine the low [Cl–]i which is critical to GABAAR-mediated inhibition. By using electrophysiological techniques to measure [Cl–]i, we showed that digestion of the ECM decreases the expression and function of the neuron-specific K+ Cl– cotransporter 2 (KCC2), which normally extrudes Cl- from the neuron, thus causing an increase in resting [Cl–]i. As a result of ECM degradation, the action of GABA may be transformed from inhibitory to excitatory. In a third study, we developed a method for quantifying the largely unknown resting Cl– (leak) conductance, gCl, and examined the role of gCl for the neuronal Cl– homeostasis. In isolated preoptic neurons from rat, resting gCl was about 6 % of total resting conductance, to a major part due to spontaneously open GABAARs and played an important role for recovery after a high Cl– load. We also showed that spontaneous, impulse-independent GABA release can significantly enhance recovery when the GABA responses are potentiated by the neurosteroid allopregnanolone. In a final commentary, we formulated the mathematical relation between Cl– conductance, KCC2-mediated Cl– extrusion capacity and steady-state [Cl–]i. In summary, the present thesis (i) clarifies how well common electrophysiological methods describe [Cl–]i and gCl, (ii) provides a novel method for quantifying gCl in cell membranes and (iii) clarifies the roles of the ECM, ion channels and ion transporters in the control of [Cl–]i homeostasis and GABAAR-mediated signaling in central neurons.
54

Communication synaptique et non-synaptique entre neurones et cellules précurseurs d'oligodendrocytes dans le cortex somatosensoriel

Maldonado Rojas, Paloma P. 09 December 2013 (has links) (PDF)
Les cellules précurseur d'oligodendrocytes (CPOs) représentent la majeure source d'oligodendrocytesmyélinisants durant le développement post-natal. Ces progéniteurs, identifiés par l'expression du protéoglycane NG2, sont non seulement extrêmement abondants avant la myélinisation, mais ils persistent aussi dans le cerveau mature. À l'instar d'autres cellules non-neuronales, elles expriment un large panel de canaux ioniques et de récepteurs pour des neurotransmetteurs. Cependant, ils sont uniques de part leur capacité à recevoir de véritables contacts synaptiques neuronaux glutamatergiqueset GABAergiques. Durant cette thèse, nous avons caractérisé les propriétés électrophysiologiques des CPOs durant le développement post-natal du cortex en champ de tonneaux de la souris (premier mois post-natal). En effectuant des enregistrements de patch-clamp, des analyses par RT-PCR sur cellule unique et des analyses pharmacologiques, nous avons observé que la courbe I-V à rectification sortante devient linéaire durant le développement, résultant d'une régulation positive de l'expression des canaux potassiques de type Kir4.1. Dotés de ces canaux, les CPOs adultes sont capables de détecter les augmentations locales de potassium extracellulaire générées par l'activité neuronale. Cette régulation positive développementale des canaux Kir4.1 dans les CPOs révèle que ces cellules ont un gain de fonction durant le développement, leur conférant la capacité de communiquer avec les neurones via un mécanisme non-synaptique lié au potassium. Ce changement développemental soutient aussi l'idée que les CPOs sont probablement plus que des progéniteurs. Dans la deuxième partie de cette thèse, nous nous sommes intéressés à l'étude des patrons de connectivité du réseau GABAergique interneurones-CPOs dans le cortex en champ de tonneaux jeune (deuxième semaine post-natale). Dans un premier temps, nous avons tiré avantage de la haute précision latérale et axiale de la photolyse holographique en mono-photon pour stimuler les interneurones GABAergiques avec une résolution à l'échelle de la cellule, de manière à évoquer un potentiel d'action. Nous avons ensuite utilisé cette technique pour cartographier la connectivité entre interneurones et CPOs. Nous avons trouvé que la probabilité de connexion des CPOs est près de moitié moins que celle des cellules pyramidales, et implique plutôt une microcircuitrie locale. De plus, en effectuant des enregistrements pairés, nous avons observé que les CPOs sont contactés transitoirement par des interneurones à décharge rapide et à décharge régulière. Ces connections se caractérisents pour la présence d'un ou deux sites de libération uniquement. Étonnamment, les sites post-synaptiques contenant des récepteurs GABAA avec la sous-unité γ2 sont principalement connectés par les interneurones à décharge rapide, indiquant que ces cellules constituent une afférence spécifique auprès des CPOs. Ici nous décrivons pour la première fois l'émergence de réseaux corticaux spécifiques entre neurones et cellules non-neuronales.
55

Revealing Secrets of Synaptic Protein Interactions : A Biosensor based Strategy

Seeger, Christian January 2014 (has links)
Protein interactions are the basis of synaptic function, and studying these interactions on a molecular level is crucial for understanding basic brain function, as well as mechanisms underlying neurological disorders. In this thesis, kinetic and mechanistic characterization of synaptic protein interactions was performed by using surface plasmon resonance biosensor technology. Fragment library screening against the reverse transcriptase of HIV was included, as it served as an outlook for future drug discovery against ligand-gated ion channels. The protein-protein interaction studies of postsynaptic Ca2+ -binding proteins revealed caldendrin as a novel binding partner of AKAP79. Caldendrin and calmodulin bind and compete at similar binding sites but their interactions display different mechanisms and kinetics. In contrast to calmodulin, caldendrin binds to AKAP79 both in the presence and absence of Ca2+ suggesting distinct in vivo functional properties of caldendrin and calmodulin. Homo-oligomeric β3 GABAA receptors, although not yet identified in vivo, are candidates for a histamine-gated ion channel in the brain. To aid the identification of the receptor, 51 histaminergic ligands were screened and a unique pharmacology was determined. A further requirement for identifying β3 receptors in the brain, is the availability of specific high-affinity ligands. The developed biosensor assay displayed sufficient sensitivity and throughput for screening for such ligands, as well as for being employed for fragment-based drug discovery. AMPA receptors are excitatory ligand-gated ion channels, involved in synaptic plasticity, and modulated by auxiliary proteins. Previous results have indicated that Noelin1, a secreted glycoprotein, interacts with the AMPA receptor. By using biochemical methods, it was shown that Noelin1 interacts directly with the receptor. The kinetics of the interaction were estimated by biosensor analysis, thereby confirming the interaction and suggesting low nanomolar affinity. The results provide a basis for functional characterization of a novel AMPA receptor protein interaction. The results demonstrate how secrets of synaptic protein interactions and function were revealed by using a molecular based approach. Improving the understanding of such interactions is valuable for basic neuroscience. At the same time, the technical advancements that were achieved to study interactions of ligand-gated ion channels by surface plasmon resonance technology, provide an important tool for discovery of novel therapeutics against these important drug targets.
56

Postnatale Entwicklung des GABAergen Systems im Gehirn der Maus / Postnatal development of the GABAergic system in mouse brain

Ritter, Barbara 27 June 2001 (has links)
No description available.
57

Une nouvelle zone de neurogenèse réactionnelle et fonctionnelle chez le mammifère adulte : les noyaux vestibulaires - mise en évidence et implication fonctionnelle dans différents modèles de déafférentation vestibulaire

Dutheil, Sophie 01 June 2012 (has links)
Seules deux structures du système nerveux central adulte, la zone sous-granulaire et la zone sous-ventriculaire, produisent continuellement de nouveaux neurones et sont considérées comme neurogènes. En dehors de ces zones délimitées, le tissu nerveux ne possède pas de telles facultés. Leurs influences anti-neurogènes peuvent cependant être mises entre parenthèses dans certaines conditions. Cela se produit après neurectomie vestibulaire unilatérale (NVU) chez le chat adulte ; en effet, des études immunohistochimiques et comportementales nous ont permis de découvrir l'existence d'une neurogenèse réactionnelle de type GABAergique dans les noyaux vestibulaires désafférentés situés dans le tronc cérébral. Nos résultats témoignent de l'implication fonctionnelle de cette prolifération cellulaire dans la restauration des fonctions posturo-locomotrices suite à une NVU. Nous avons également mis en évidence que les caractéristiques et l'intensité de la désafférentation vestibulaire déterminent, non seulement, le décours temporel de la restauration des fonctions vestibulaires, mais aussi les différents mécanismes cellulaires post-lésionnels et le potentiel neurogène des noyaux vestibulaires. En outre, nous avons démontré que l'activation ou le blocage des récepteurs GABA de type A influence d'une part, les différentes étapes de la neurogenèse réactionnelle dans les noyaux vestibulaires, et détermine d'autre part le décours de la récupération comportementale des animaux. Ainsi, le système GABAergique joue-t-il un rôle important dans la régulation de la neurogenèse induite après NVU et de sa fonctionnalité. / Only two structures of the adult central nervous system: the subgranular zone and the subventricular zone, produce continuously new neurons and are considered as neurogenic. Outside these two delimited areas, nervous tissue does not have such faculties. The anti-neurogenic influences can however be removed under specific conditions. That is what happens after unilateral vestibular neurectomy (UVN) in the adult cat: behavioral and immunohistochemical studies have demonstrated the existence of a reactive GABAergic neurogenesis in the deafferented vestibular nuclei located in the brainstem. Our results demonstrate the functional role of the vestibular cell proliferation in the postural locomotor function recovery after UVN. We also demonstrated that characteristics and intensity of the vestibular lesion, not only determine the time course of recovery of vestibular function, but also the post-lesional cellular mechanisms and the neurogenic potential occurring in the vestibular nuclei. In addition, we showed that activation or blockade of GABA type A receptors influences the different steps of neurogenesis in the vestibular nuclei, and also determines the time course of behavioral recovery. Thus, the GABAergic system influences reactive neurogenesis that is benefic for vestibular compensation process. Finally, the results of a recent study demonstrated that vestibular-hippocampal relations exist, and that stress induced by vestibular deafferentation can modulate adult neurogenesis in both the vestibular nuclei and the dentate gyrus in the adult cat.
58

Elektrophysiologische Charakterisierung von GABA-Rezeptor-vermittelter Inhibition an Martinotti-Zellen der Schicht 5 im Barrel-Kortex / Electrophysiological characterization of GABA-receptor-mediated inhibition on Martinotti cells in layer 5 of the barrel cortex

Glöckner, Kristina 10 December 2020 (has links)
No description available.
59

Finding genetic elements that head to the autistic phenotype

Gillis, Robert Francis Fraser January 2007 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.
60

Finding genetic elements that head to the autistic phenotype

Gillis, Robert Francis Fraser January 2007 (has links)
Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

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