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Effects of Whisker-Trimming on GABAA Receptors in S1 CortexSalazar, Eduardo 08 1900 (has links)
A number of studies have shown that sensory deprivation is associated with selective decreases in GABA, GAD, and GABA receptors, in deprived areas of visual and somatosensory cortex. Those studies focused on layer 4, a recipient of direct thalamocortical sensory input. However, supragranular layers 2/3 have been recently identified as a major locus of functional plasticity in sensory deprivation and long-term potentiation. To examine whether GABAA receptors in layers 2/3 are affected by sensory deprivation, rats had mystacial vibrissae in middle row C or rows ABDE trimmed for 6 weeks beginning in early adulthood. Layers 2/3 above the deprived and adjacent whisker barrels were located in tangential sections, using patterns of radial blood vessels as fiducial marks. In deprived whisker barrel columns, [3H]muscimol binding to GABAA receptors decreased by 12.8% ± 1.2 (P < 0.001) in layers 2/3 and 11.4% ± 1.2 (P<0.001) in layer 4. Altered levels of GABAA α1 subunit (Fritschy et al., 1994) were indicated by reduced optical density of immunostaining, both in deprived layers 2/3 (6.4% ± 0.7; P< 0.001) and in layer 4 (3.4% ± 1.0; P < 0.005). Interestingly, Nissl staining density also decreased in deprived layers 2/3 (12.7% ± 1.8 P < 0.001) and in 4 (6.0 ± 0.7 (P < 0.001). The percent decreases were greater in layers 2/3 than in 4 for both GABAA α1 (P < 0.05) and Nissl substance (P < 0.005). The present results suggest that down-regulation in GABAA receptors may underlie the physiological signs of disinhibition observed in neurons of layer 2/3 and 4 in deprived whisker barrel columns.
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Investigation of Inhibitory Influences in Neuronal Monolayer Networks Cultured from Mouse Spinal CordJordan, Russell S. (Russell Stall) 08 1900 (has links)
The effects of the inhibitory neurotransmitters gammaamino butyric acid (GABA) and glycine were characterized on spontaneous activity recorded from mouse spinal cord cultures. The GABA concentration which completely inhibited burst activity was chosen as a quantifiable measure of culture drug response and was used to 1) assess interculture and intraculture variability, 2) determine the influence of culture age and initial activity on GABA responses, and 3) compare the GABA responses between networks obtained from whole spinal cord and ventral half spinal cord. Results showed that 1) no significant variability existed either within or among cultures, 2) the initial culture activity directly affected GABA responses, 3) the culture age had no effect on GABA responses, and 4) there was no significant difference in GABA responses between the two spinal cord tissues.
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Post- and Presynaptic GABA(B) Receptor Activation in Neonatal Rat Rostral Ventrolateral Medulla Neurons in VitroLin, H. H., Dun, N. J. 21 May 1998 (has links)
Whole-cell patch recordings were made from immature (six- to 12-day- old) rat rostral ventrolateral medulla neurons in brainstem slices. GABA or the specific GABA(B) receptor agonist (-)baclofen (10-50 μM) by superfusion or by pressure ejection induced an outward current or a hyperpolarization, which persisted in a tetrodotoxin (0.3 μM)-containing Krebs' solution in nearly every cell tested. The GABA(B) receptor antagonists 2-hydroxy saclofen (50-200 μM) and CGP 35348 (50-200 μM) dose-dependently suppressed baclofen- currents. Baclofen-currents were suppressed by barium (1 mM) but not by tetraethylammonium (20 mM), low Ca2+ (0.24 mM) solution or in a solution containing the Ca2+ chelator BAPTA-AM (10 μM). The outward current had an estimated reversal potential of -98, -77 and -52 mV in 3.1, 7 and 15 mM [K+](o). Pre-incubation of slices with pertussis toxin (500 μg/ml for 5-7 h) or intracellular dialysis with GDP-β-S (500 μM) markedly reduced baclofen-currents. Baclofen in low concentrations (1-3 μM) that caused slight or no change of holding currents and of inward or outward currents induced by exogenously applied glutamate or glycine/GABA, decreased excitatory and inhibitory postsynaptic currents by an average of 86.5 ± 4.3% and 78.4 ± 2.7%. The GABA(B) antagonist CGP 35348 (100 μM) increased the excitatory postsynaptic currents by an average of 64%, without causing a significant change in holding currents in 10/18 cells tested. Our results indicate the presence of post- and presynaptic GABA(B) receptors in the rostral ventrolateral medulla neurons. Activation of postsynaptic GABA(B) receptors induces an outward K+ current which is barium-sensitive, Ca2+- independent and may be coupled to a pertussis-sensitive G-protein. Activation of presynaptic GABA(B) receptors attenuates excitatory or inhibitory synaptic transmission. More importantly, the observation that CGP 35348 enhanced excitatory synaptic currents implies a removal of tonic activation of presynaptic GABA(B) receptors by endogenously released GABA (disinhibition), supporting the hypothesis that these receptors may have a physiological role in regulating the input and output ratio in a subset of rostral ventrolateral medulla neurons in vivo.
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Mechanisms in ethanol modulation of GABA release onto dopaminergic neurons of the ventral tegmental areaTheile, Jonathan William 27 August 2010 (has links)
Activation of ventral tegmental area (VTA) dopaminergic (DA) neurons by ethanol has been implicated in the rewarding and reinforcing actions of ethanol. GABAergic transmission is thought to play an important role in regulating the activity of DA neurons. While at most central synapses ethanol generally increases inhibitory synaptic transmission, no studies have explored the effect of acute ethanol on GABAergic transmission in the VTA. Here we investigated how ethanol modulates GABAergic transmission in the VTA in relation to the overall action of ethanol on VTA-DA neuron activity. We demonstrated that ethanol dose-dependently enhances action potential-dependent and -independent GABA release onto VTA-DA neurons. Utilizing whole-cell voltage clamp recording techniques, ethanol increased both spontaneous and miniature inhibitory postsynaptic current (s/mIPSC) frequency while having minimal effect on s/mIPSC amplitude. The ethanol enhancement in GABA release was independent of GABAB auto-receptor inhibition of release. Intra-terminal calcium levels regulate neurotransmitter release, thus we investigated how modulation of calcium levels would affect the ethanol-enhancement in GABA release. Ethanol enhanced mIPSC frequency in the presence of the voltage-gated calcium channel blockers, cadmium chloride and nicardipine. However, blockade of intracellular calcium stores with 2-APB and cyclopiazonic acid eliminated the ethanol-enhancement of mIPSC frequency. Intracellular calcium stores are regulated via Gq protein-coupled receptors such as the 5-HT2C receptor. 5-HT2C receptor activation robustly enhanced mIPSC frequency whereas blockade inhibited the ethanol-enhancement in mIPSC frequency. These observations suggest that increased calcium release from intracellular stores via 5-HT2C receptor activation is involved in the ethanol-enhancement of GABA release onto VTA-DA neurons. Utilizing cell-attached current-clamp recordings, we demonstrated that the ethanol-enhancement of VTA-DA neuron activity is modulated by the concurrent enhancement in GABA release. Blockade and activation of GABAA receptors enhanced and reversed, respectively, the stimulatory effect of ethanol on VTA-DA neurons. Mu-opioid receptors (MORs) on GABAergic interneurons have been demonstrated to modulate both basal and ethanol-enhanced VTA-DA activity in vivo, though we failed to demonstrate such an effect in vitro. Overall, the results of this study suggest that the 5-HT2C receptor and intra-terminal calcium-dependent ethanol enhancement in GABA release acts to regulate the overall stimulatory effect of ethanol on VTA-DA activity. / text
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The inhibitory mechanisms of sound processing in the dorsal cochlear nucleus of the guinea pigZhao, Wei January 1995 (has links)
No description available.
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From synapse to behaviour : selective modulation of neuronal networksGoetz, Thomas January 2008 (has links)
In this thesis, I describe the development of a novel method to selectively modulate neural activity cell-type selectively. Binding of Zolpidem, an allosteric modulator that enhances GABAa receptor function and the inverse agonist β-carboline, require a phenylalanine residue (F77) in the γ subunit.
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Structural and Biochemical Characterization of the GABA(A) Receptor Interacting Protein Muskelin / Strukturelle und Biochemische Charakterisierung des GABA(A) Rezeptor interagierenden Proteins MuskelinDelto, Carolyn Francesca January 2015 (has links) (PDF)
In a study from 2011, the protein muskelin was described as a central coordinator of the retrograde transport of GABA(A) receptors in neurons. As muskelin governs the transport along actin filaments as well as microtubules, it might be the first representative of a novel class of regulators, which coordinate cargo transport across the borders of these two independent systems of transport paths and their associated motorproteins. To establish a basis for understanding the mode of operation of muskelin, the aim of this thesis was an in-depth biochemical and structural characterization of muskelin and its interaction with the GABA(A) receptor.
One focus of the work was the analysis of the oligomerization of muskelin. As could be demonstrated, the oligomerization is based on two independent interactions mediated by different domains of the protein: a known interaction of the N-terminal discoidin domain with the C-terminal portion, termed head-to-tail interaction, and a dimerization of the LisH motif in muskelin that was so far neglected in the literature. For the detailed studies of both binding events, the solution of a crystal structure of a fragment of muskelin, comprising the Discoidin domain and the LisH motif, was an important basis. The fragment crystallized as a dimer, with dimerization being mediated solely by the LisH motif. Biochemical analysis corroborated that the LisH motif in muskelin serves as a dimerization element, and, moreover, showed that the C-terminal domain of the protein substantially stabilizes this dimerization. In addition, the crystal structure revealed the molecular composition of the surface of the head in the head-to-tail interaction, namely the discoidin domain. This information enabled to map the amino acids contributing to binding, which showed that the binding site of the head-to-tail interaction coincides with the generic ligand binding site of the discoidin domain.
As part of the analyses, residues that are critical for LisH-dimerization and the head-to-tail binding, respectively, were identified, whose mutation specifically interfered with each of the interactions separately. These mutations allowed to investigate the interplay of these interactions during oligomerization. It could be shown that recombinant muskelin assembles into a tetramer to which both interactions, the LisH-dimerization and the head-to-tail binding, contribute independently. When one of the two interactions was disturbed, only a dimer mediated via the respective other interaction could be formed; when both interactions were disturbed, the protein was present as monomer. Furthermore, Frank Heisler in the group of Matthias Kneussel was able to show the drastic impact of an impaired LisH-dimerization on muskelin in cells using these mutations. Disturbing the LisH-dimerization led to a complete redistribution of the originally cytoplasmic muskelin to the nucleus which was accompanied by a severe impairment of its function during GABA(A) receptor transport. Following up on these results in an analysis of muskelin variants, for which alterations of the subcellular localization had been published earlier, the crucial influence of LisH-dimerization to the subcellular localization and thereby the role of muskelin in the cell was confirmed.
The biochemical studies of the interaction of muskelin and the alpha1 subunit of the GABA(A) receptor demonstrated a direct binding with an affinity in the low micromolar range, which is mediated primarily by the kelch repeat domain in muskelin. For the binding site on the GABA(A) receptor, it was confirmed that the thirteen most C-terminal residues of the intracellular domain are critical for the binding of muskelin. In accordance with the strong conservation of these residues among the alpha subunits of the GABA(A) receptor, it could be shown that an interaction with muskelin in vitro is also possible for the alpha2 and alpha5 subunits. Based on the comparison of the binding sites between the homologous subunits, tentative conclusions can be drawn about the details of the binding, which may serve as a starting point for follow-up studies.
This thesis thereby makes valuable contributions to the understanding of muskelin, in particular the significance of its oligomerization. It furthermore provides an experimental framework for future studies that address related topics, such as the characterization of other muskelin interaction partners, or the questions raised in this work. / Das Protein Muskelin wurde in einer Studie aus dem Jahr 2011 als zentraler Koordinator des retrograden Transports von GABA(A)-Rezeptoren in Neuronen beschrieben. Da Muskelin den Transport des Rezeptors sowohl entlang von Aktinfilamenten als auch Mikrotubuli steuert, könnte es der erste bekannte Vertreter einer neuen Klasse von Regulatoren sein, die den Transport einer Fracht über die Grenzen dieser beiden unabhängigen Systeme von Transportwegen und der damit assoziierten Motorproteine hinweg koordinieren. Um Grundlagen für das Verständnis der Wirkungsweise von Muskelin zu schaffen, war das Ziel dieser Arbeit die biochemische und strukturelle Charakterisierung von Muskelin und seiner Interaktion mit dem GABA(A)-Rezeptor.
Ein Schwerpunkt der Arbeit lag dabei auf der Analyse der Oligomerisierung von Muskelin. Wie gezeigt werden konnte, beruht die Oligomerisierung auf zwei unabhängigen, von verschiedenen Domänen des Proteins vermittelten Bindungen: zum Einen auf einer bereits bekannten Wechselwirkung der N-terminalen Discoidin-Domäne und des C-terminalen Teils (anschaulich als Head-to-tail, englisch für Kopf-an-Schwanz, bezeichnet), zum Anderen auf einer in der Literatur bisher außer Acht gelassenen Dimerisierung des LisH-Motivs in Muskelin.
Für die detaillierten Studien beider Bindungen lieferte die Aufklärung der Kristallstruktur eines Teilstücks von Muskelin, das die Discoidin-Domäne und das LisH-Motiv umfasst, eine wichtige Grundlage. Das Teilstück kristallisierte als Dimer, wobei die Dimerisierung ausschließlich über das LisH-Motiv vermittelt wurde. Die biochemischen Analysen bestätigten, dass das LisH-Motiv in Muskelin als Dimerisierungselement wirkt, und zeigten darüber hinaus, dass die C-terminale Domäne des Proteins diese Dimerisierung wesentlich stabilisiert. Zudem offenbarte die Kristallstruktur den molekularen Aufbau der Oberfläche des Kopfes in der Head-to-tail-Bindung, der Discoidin-Domäne. Die Kartierung der zur Bindung beitragenden Aminosäuren belegte, dass die Bindungsstelle der Head-to-tail-Interaktion mit der generischen Ligandenbindungsstelle der Discoidin-Domäne zusammenfällt.
Als Teil der Analysen wurden zur LisH-Dimerisierung oder zur Head-to-tail-Bindung kritisch beitragende Aminosäurenseitenketten identifiziert, durch deren Mutationen
Ispezifisch jeweils eine der beiden Interaktionen unterbunden werden konnte. Diese Mutationen ermöglichten es, das Zusammenspiel der Bindungen in der Oligomerisierung zu untersuchen. Es konnte gezeigt werden, dass rekombinantes Muskelin ein Tetramer bildet, wozu beide Interaktionen, die LisH-Dimerisierung und die Head-to-tail-Bindung, unabhängig beitragen. Wurde jeweils eine der beiden Interaktionen durch Mutation gestört, konnte nur noch ein über die jeweils andere Interaktion vermitteltes Dimer gebildet werden, bei gleichzeitiger Störung beider Interaktionen lag das Protein als Monomer vor. Darüber hinaus konnte Frank Heisler in der Arbeitsgruppe von Matthias Kneussel mit Hilfe dieser Mutationen zeigen, dass eine Störung der LisH-Dimerisierung drastische Auswirkungen auf Muskelin in Zellen hat. Die Störung der LisH-Dimerisierung führte zu einer vollständigen Umverteilung des sonst im Zytoplasma lokalisierten Muskelins in den Kern, begleitet von einer starken Beeinträchtigung seiner Funktion im Transport des GABA(A)-Rezeptors. Auf diesen Ergebnissen aufbauend wurde durch Analysen der oligomeren Zustände von Muskelin-Varianten, für die in der Literatur eine veränderte Lokalisation beschrieben worden war, die entscheidende Bedeutung der LisH-Dimerisierung für die subzelluläre Verteilung und damit die Rolle von Muskelin in der Zelle bekräftigt.
Die biochemischen Studien der Interaktion von Muskelin und der alpha1-Untereinheit des GABA(A)-Rezeptors demonstrierten eine direkte Bindung mit mikromolarer Affinität, die in Muskelin vorwiegend durch die Kelch-repeat-Domäne vermittelt wird. Für die Bindungsstelle auf Seite des GABA(A)-Rezeptors wurde bestätigt, dass die dreizehn C-terminalen Reste der intrazellulären Domäne entscheidend sind. In Übereinstimmung mit der starken Konservierung dieser Reste in verschiedenen alpha-Untereinheiten des GABA(A)-Rezeptors, konnte gezeigt werden, dass in vitro eine Bindung von Muskelin auch an die intrazelluläre Domäne der alpha2- und alpha5-Untereinheit möglich ist. Anhand des Vergleichs der Bindungsstelle zwischen den homologen Untereinheiten lassen sich erste Rückschlüsse auf die Details der Interaktion ziehen, die als Anknüpfungspunkt für kommende Studien dienen können.
Diese Arbeit liefert damit wesentliche Beiträge zum Verständnis von Muskelin, insbesondere der Bedeutung seiner Oligomerisierung. Sie bietet zudem ein experimentelles Rahmenwerk für zukünftige Studien, die sich verwandten Themen, wie der Charakterisierung weiterer Interaktionen von Muskelin, oder den in dieser Arbeit aufgeworfenen Fragen widmen.
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The effects of bicuculline on cocaine self-administration in male rats developmentally exposed to leadValles, Rodrigo, Jr. 30 September 2004 (has links)
Rationale: Lead-exposure during developmental periods may alter reinforcing patterns of drugs of abuse in adulthood. Anxiety related mechanisms may also influence drug intake. Interactions between the two altering factors may exist. Objectives: The present study examined the effects of perinatal lead-exposure on cocaine self-administration after a GABAA antagonist pre-treatment. Methods: Female rats were exposed to a regimen of 16 mg lead daily for 30 days prior to breeding with un-exposed males. This continued throughout gestation and lactation until postnatal day (PND) 21. On PND 63, animals were implanted with indwelling jugular catheters. After a 7 day recovery period, animals were trained to self-administer 0.50 mg/kg cocaine intravenously [IV]. After stable responding had been established, testing procedures began using combinations of 0.03 and 0.06 mg/kg cocaine [IV] and 0.00, 0.50, 1.00 and 2.00 mg/kg bicuculline (a GABAA antagonist) intraperitoneal [IP]. Results: Bicuculline pre-treatment caused directionally opposite effects in both treatment groups (Group 0-Lead and Group 16-Lead) at the 0.06 mg/kg cocaine dose. Group 0-Lead animals showed an increase in self-administration, while Group 16-Lead animals showed a decrease in responding on the active (cocaine) lever. Results at the 0.03 mg/kg cocaine dose showed no discernable pattern. Group 0-Lead animals decreased in active lever responding at the 2.00 mg/kg bicuculline dose. Group 16-Lead animals showed no differences in responding at any dose of bicuculline. Conclusions: These data further suggest the influential role of GABA in mediating cocaine reward and the ability of developmental lead-exposure to alter mechanisms mediating drug responsiveness even after exposure has terminated.
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Inhibition of Gamma Oscillations in Healthy Subjects and Patients with SchizophreniaFarzan, Faranak 23 February 2011 (has links)
The pathophysiology of psychiatric disorders such as schizophrenia is not fully understood due, in part, to the shortcomings of available neurophysiological techniques. Previous studies have shown that patients with schizophrenia have deficits in dorsolateral prefrontal cortex (DLPFC). In this regard, two major deficits were observed: impairments in gamma-aminobutyric-acid (GABA) neurotransmission and cortical gamma (30-50Hz) oscillations. Previous in vitro and animal studies have linked the modulation of gamma oscillations with GABAB receptor mediated inhibition. Objectives: The first objective was to examine the effect of GABAB receptor mediated inhibition on cortical oscillations in the motor cortex and DLPFC in healthy subjects by using the novel technique of transcranial magnetic stimulation (TMS) combined with electroencephalography (EEG) and through the TMS paradigm long interval cortical inhibition (LICI), which has been associated with GABAB receptor mediated inhibition. Second, to evaluate the psychometric properties of this neurophysiological paradigm, the validity and reliability of EEG indices of LICI were examined. Finally, the effect of LICI on cortical oscillations was examined in the DLPFC and motor cortex of patients with schizophrenia compared to healthy subjects and patients with bipolar disorder. Hypothesis: It was predicted that EEG measures of LICI would show validity and reliability, and it was hypothesized that patients with schizophrenia would show deficits in inhibition of gamma oscillations in DLPFC compared to healthy subjects and patients with bipolar disorder. Results: The first experiment showed that in healthy subjects LICI inhibited gamma oscillations in the DLPFC but not in the motor cortex. The second experiment demonstrated the validity and reliability of EEG indices of LICI were confirmed in healthy subjects. Finally, patients with schizophrenia had a selective deficit in inhibition of gamma oscillations in the DLPFC which appeared to be independent of illness duration or antipsychotic medication, and it was not observed in bipolar disorder. Conclusions: TMS combined with EEG allows for measuring modulatory effect of LICI on cortical oscillations. Inhibition of gamma oscillations in the DLPFC may be an essential neurophysiological process that may be impaired in schizophrenia. Future studies should ascertain the potential of gamma inhibition deficit as a biological marker for this illness.
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Inhibition of Gamma Oscillations in Healthy Subjects and Patients with SchizophreniaFarzan, Faranak 23 February 2011 (has links)
The pathophysiology of psychiatric disorders such as schizophrenia is not fully understood due, in part, to the shortcomings of available neurophysiological techniques. Previous studies have shown that patients with schizophrenia have deficits in dorsolateral prefrontal cortex (DLPFC). In this regard, two major deficits were observed: impairments in gamma-aminobutyric-acid (GABA) neurotransmission and cortical gamma (30-50Hz) oscillations. Previous in vitro and animal studies have linked the modulation of gamma oscillations with GABAB receptor mediated inhibition. Objectives: The first objective was to examine the effect of GABAB receptor mediated inhibition on cortical oscillations in the motor cortex and DLPFC in healthy subjects by using the novel technique of transcranial magnetic stimulation (TMS) combined with electroencephalography (EEG) and through the TMS paradigm long interval cortical inhibition (LICI), which has been associated with GABAB receptor mediated inhibition. Second, to evaluate the psychometric properties of this neurophysiological paradigm, the validity and reliability of EEG indices of LICI were examined. Finally, the effect of LICI on cortical oscillations was examined in the DLPFC and motor cortex of patients with schizophrenia compared to healthy subjects and patients with bipolar disorder. Hypothesis: It was predicted that EEG measures of LICI would show validity and reliability, and it was hypothesized that patients with schizophrenia would show deficits in inhibition of gamma oscillations in DLPFC compared to healthy subjects and patients with bipolar disorder. Results: The first experiment showed that in healthy subjects LICI inhibited gamma oscillations in the DLPFC but not in the motor cortex. The second experiment demonstrated the validity and reliability of EEG indices of LICI were confirmed in healthy subjects. Finally, patients with schizophrenia had a selective deficit in inhibition of gamma oscillations in the DLPFC which appeared to be independent of illness duration or antipsychotic medication, and it was not observed in bipolar disorder. Conclusions: TMS combined with EEG allows for measuring modulatory effect of LICI on cortical oscillations. Inhibition of gamma oscillations in the DLPFC may be an essential neurophysiological process that may be impaired in schizophrenia. Future studies should ascertain the potential of gamma inhibition deficit as a biological marker for this illness.
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