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First syntheses of fluoromuscimolsAbdul Manan, Mohd Abdul Fatah January 2017 (has links)
Chapter 1 provides a general introduction on the role of bioisosterism of fluorine aiming to improve the pharmacokinetics properties of lead compounds. GABAA receptors specifically, synaptic GABAA receptors, extrasynaptic GABAA receptors and GABAA rho receptors are then presented. Compounds that exhibit agonist and partial agonist effects at these receptors are also discussed. The applications of some compounds as GABAA receptor PET radiotracers are also described. Chapter 2 details the synthesis of two fluorinated analogues of muscimol, fluoromuscimol and trifluoromethylmuscimol. Fluoromuscimol was obtained from the lithiation of a Boc-protected isoxazole followed by in-situ fluorination using NFSI, whereas trilfuoromethylmuscimol was obtained from the coupling of a heteroaryl iodide with trifluoromethylcopper species, which was generated in-situ from MFSDA in the presence of CuI. Fluoromuscimol and trifluoromethylmuscimol were assessed on human synaptic, (α₁β₂γ₂), extrasynaptic, (α₄β₂δ) and ρ₁ subunits of the GABAA receptor. The biological results show that fluoromuscimol exhibits greater maximum response in comparison to GABA at the extrasynaptic GABAA receptors (α₄β₂δ), but lower overall potency, whereas trifluoromethylmuscimol was inactive at all the tested GABAA receptors. Chapter 3 discusses the synthesis and late stage fluorination of diaryliodonium salts as precursors to fluoromuscimol. Application of iodonium salts as precursors for nucleophilic fluorination in PET studies are also highlighted. The last part of this chapter focuses on the synthesis of iodomuscimol as a potential alternative SPECT radiotracer to fluoromuscimols in probing GABA binding sites on GABAA receptors.
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The Effects of Chronic Ethanol Intake on the Allosteric Interaction Between GABA and Benzodiazepine at the GABAA ReceptorChen, Jianping 05 1900 (has links)
This study examined the effects of chronic ethanol intake on the density, affinity, and allosteric modulation of rat brain GABAA receptor subtypes. In the presence of GABA, the apparent affinity for the benzodiazepine agonist flunitrazepam was increased and for the inverse agonist R015-4513 was decreased. No alteration in the capacity of GABA to modulate flunitrazepam and R015-4513 binding was observed in membranes prepared from cortex, hippocampus or cerebellum following chronic ethanol intake or withdrawal. The results also demonstrate two different binding sites for [3H]RO 15-4513 in rat cerebellum that differ in their affinities for diazepam. Chronic ethanol treatment and withdrawal did not significantly change the apparent affinity or density of these two receptor subtypes.
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Age-Dependent Effects Of Chronic GABAA Receptor Blockade In Barrel CortexGargan, Lynn 05 1900 (has links)
GABAA receptor binding is transiently increased in rat whisker barrels during the second postnatal week, at a time when neurons in the developing rat cortex are vulnerable to excitotoxic effects. To test whether these GABAA receptors might serve to protect neurons from excessive excitatory input, polymer implants containing the GABAA receptor antagonist bicuculline were placed over barrel cortex for a 4-day period in young (postnatal days 8 - 12) and adult rats. In the cortex of young, but not adult rats, the chronic blockade of GABAA receptors resulted in substantial tissue loss and neuron loss. The greater loss of neurons in young rats supports the hypothesis that a high density of GABAA receptors protects neurons from excessive excitatory input during a sensitive period in development.
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GABAᴀ Receptors in Rat Whisker Barrel Cortex: Effects of Sensory DeprivationSalazar, Eduardo, 1962- 08 1900 (has links)
The GABAergic system in adult sensory cortex is affected by sensory deprivation, but little is known about how this predominant inhibitory system is affected during ontogeny. The present study investigates developmental effects of whisker trimming on GABAa receptors in rat barrel cortex. Rats trimmed for 6 wk beginning at birth and adulthood showed similar decreases in [3H]muscimol binding in deprived relative to non-deprived barrels, suggesting absence of a critical period.
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Structural studies of human GABA-A receptorsMasiulis, Simonas January 2017 (has links)
Type-A Î3-amino-butyric acid receptors (GABA<sub>A</sub>Rs) are pentameric ligand-gated ion channels (pLGICs), which mediate the majority of fast inhibitory neurotransmission in the animal central nervous system. Their dysfunction is related to numerous conditions including epilepsy, insomnia, anxiety, panic disorders, depression and schizophrenia. GABA<sub>A</sub>Rs are therefore major targets of clinically important drugs, including benzodiazepines and the intravenous general anaesthetics etomidate and propofol, as well as endogenous modulators, for example neurosteroids. Despite recent progress in structural biology of pLGICs, GABA<sub>A</sub>R structures remain notoriously elusive. Structural information available at the beginning of this project was limited to the benzamidine-bound homopentameric GABA<sub>A</sub>R-Î23, in a desensitised conformation. A large number of fundamental questions, including the molecular architecture of physiological, heteromeric GABA<sub>A</sub>Rs, their signalling mechanisms, the binding and action modes of their numerous ligands, remained to be answered. During this DPhil project, I employed structural biology techniques (X-ray crystallography and single particle cryo-electron microscopy) to further the molecular understanding of human GABAARs. I used subunit-specific llama nanobodies to aid crystallization of homomeric GABA<sub>A</sub>-β3 receptors, which led to a 3.16 Å structure in complex with the general anaesthetic etomidate. This structure elucidates the binding mode of the etomidate, the basis for its subunit selectivity and illustrates conformational changes it triggers. I then used cryo-electron microscopy to determine the first structure of a heteromeric GABA<sub>A</sub>R, the human α1b3g2, bound to an activating llama nanobody at a medium (5.2 Å) resolution. The numerous other insights obtained range from unambiguously establishing the subunit arrangement and stoichiometry, to proposing a mechanism for receptor assembly and discovering an unexpected role played by N-linked glycans in this process. The work described here opens multiple avenues for future research. Immediate opportunities include high resolution structural characterization of heteromeric GABA<sub>A</sub>Rs, via cryo-electron microscopy, further development of nanobodies as novel, high affinity and subunit specific tools to modulate GABA-ergic signalling, and structural characterization of numerous small-molecule modulators, of clinical and physiological relevance, bound to human GABA<sub>A</sub>Rs.
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Pyridazinediones and amino acid receptors theoretical studies, design, synthesis and evaluation of novel analoguesGreenwood, Jeremy R. (Jeremy Robert), 1971- January 1999 (has links)
Title from title screen. Interactive three dimensional molecular data and multiple colour images. Text presented in Hypertext Markup Language (.htm); images in standard formats (.jpg, .gif); molecules presented mostly as Cambridge Protein Data Bank format (.pdb); some molecules presented in alternative X.Mol cartesian co-ordinates format (.xyz); search facility in PERL script. Includes bibliographical references. Text, numeric and representational data System requirements: for text, any standard web browser on any platform, Netscape 2.x or higher, Internet Explorer 3.x or higher; for molecular structures, viewer such as Rasmol or preferably MDL's Chemscape Chime; for search facility , an appropriately configured web server. Links to all required software for browsing on various platforms are included in the software directory in the thesis. Mode of access: World Wide Web.
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GABA and GABA-receptors in the enteric nervous system / by Jennifer OngOng, Jennifer January 1985 (has links)
Bibliography: leaves 282-354 / 354 leaves : ill ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Physiology, 1986
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Hypothalamic neuronal circuits involved in the regulation of food intake and body weight : histochemical studies in lean rats and obese mutant mice /Bäckberg, Matilda, January 2004 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 6 uppsatser.
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An electrophysiological study of the effects of resveratrol and catechin at GABAa receptorsHarr, Jennifer C. 01 January 2007 (has links) (PDF)
Resveratrol and catechin have behavioral and neuroprotective effects that may be due to their interaction with neuronal ion channels. It was hypothesized that the grape compounds, resveratrol and catechin modulate GABAAA receptors. To address this hypothesis, the effects of resveratrol and catechin were investigated on human recombinant GABAA receptors expressed in HEK-293 cells using electrophysiological techniques.<.p>
HEK-293 cells were cultured and transfected using eDNA encoding human GABAA receptors. GABA-evoked currents were recorded from HEK cells 24-48 hours following transfection. Cells were voltage clamped in the whole cell configuration at -60mV using the patch-clamp technique. Ligand-activated currents were recorded and stored, using Win WCP software, on a desktop computer.
Resveratrol (1- 100μM) dose-dependently potentiated GABA-evoked currents recorded from α1β2< /sup>γ2 and α1β2 GABAA receptors. Resveratrol did not modulate a α1β2< /sup>γ2 and α1β2 GABAA receptors. Furthermore, resveratrol did not act through the benzodiazepine binding site. The low efficacy and subunit selectivity of resveratrol is a promising discovery for the development of a highly specific GABAergic modulator. Conversely, catechin (1-100αM) dose-dependently inhibited GABA-evoked currents recorded from α1β2 and α1β1 GABAA receptors. The degree of inhibition was the same for both receptor subtypes. Catechin did not modulate α1β2γ2 or α1β1γ2 GABAA receptors. The selectivity of catechin for receptors lacking the γ subunit is similar to the effects of zinc and did not involve the benzodiazephine site on GABAA receptors.
This study has shown that catechin and resveratrol are subunit-selective modulators of human GABAA receptors. These compounds could lead to the development of novel agents to be used in treating neurological disorders. These data support the use and study of natural products for the development of agents that act selectively on the nervous system.
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Neurotoxicity of the Industrial Solvent 4-Methylcyclohexanemethanol: Involvement of the GABA ReceptorGibson, Jason (Jason Robert) 05 1900 (has links)
A recent chemical spill of 4-Methylcyclohexanemethanol (4-MCHM) in West Virginia left 300,000 people without water. Officials claimed that this compound is not lethally toxic, but potentially harmful if swallowed or inhaled, and can cause eye and skin irritation. Sittig's Handbook of Toxic and Hazardous Chemical Carcinogens reports high exposures from skin contact or inhalation may cause damage to the heart, liver, kidneys, and lungs, and may result in death. However, no quantitative data seem to exist and no references can be found on neurotoxicity. We have investigated the neurotoxicity of 4-MCHM using mammalian nerve cell networks grown on microelectrode arrays. Network spontaneous activity from multiple units (range 48 – 120 per network) were used as the primary readout. Individual units were followed based on spike waveforms digitized at 40 kHz (Plexon MNAP system). Dose response curves show the effective inhibitory concentration at 50 percent decrease (EC50) to average 27.4 microM SD±6.17. However, in the presence of 40 microM bicuculline, a competitive GABAA antagonist, the EC50 shifts to 70.63uM SD ±4.3; implying that early, low concentration exposures to 4-MCHM involve GABA activation. Initial activity loss occurs without active unit loss (defined as 10 or more template threshold crossing per min), indicating functional interference with spike production. Full recovery has not been seen at concentrations above 130 microM, unless the culture was given bicuculline. Direct exposure to 400uM results in immediate, irreversible loss of spike production, followed by necrosis of glia and neurons.
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