Global ETD Search

1	Regulation of adenosine transporter and AMPA receptor subunit localization by protein kinase CK2 in rat hippocampus Longmuir, Nicole 25 July 2011 The control of extracellular adenosine is crucial to the regulation of synaptic transmission and neuroprotection. Equilibrative nucleoside transporters (ENTs) are highly expressed in the hippocampus and widely accepted as critical regulators of adenosine tone. However, the mechanisms regulating the surface distribution and transport function of ENTs are largely unknown. Since ENT1 and ENT2 contain consensus sequences for phosphorylation by protein kinase CK2, and because this protein has been reported to regulate synaptic plasticity and ENT function in non-neuronal systems, the present thesis outlines the hypothesis that CK2-induced phosphorylation of ENTs is important for their cellular localization and thus the regulation of adenosine tone and synaptic transmission. Here, a functional interaction between adenosine CK2, ENTs and AMPA receptors in the hippocampus is reported. Western blot analysis shows that a variety of CK2 inhibitors (DMAT, TBB and DRB) significantly reduced the density of ENT1 and ENT2 proteins in hippocampal membrane fractions, suggesting that CK2-mediated phosphorylation of ENTs promotes their surface localization. In contrast, it was found that the ENT1 inhibitor NBTI significantly increased in the membrane localization of ENT1, relative to the control. Moreover, ENTs were found to immunoprecipitate with GluR1 and GluR2-containing AMPA receptors; and CK2 inhibitors caused a decrease in the membrane localization of GluR2 and GluR1 AMPA receptors. These results suggest a novel signaling complex linking CK2-regulated adenosine transport to AMPA receptor trafficking in the rat hippocampus. Although the physiological significance of these findings requires further investigation, this thesis provides insight into an adenosine regulation pathway that may be important for the regulation of synaptic transmission and neuroprotection in the rat hippocampus. adenosine protein kinase CK2 GluR1 equilibrative nucleoside transporter hippocampus GluR2
2	Regulation of adenosine transporter and AMPA receptor subunit localization by protein kinase CK2 in rat hippocampus Longmuir, Nicole 25 July 2011 (has links) The control of extracellular adenosine is crucial to the regulation of synaptic transmission and neuroprotection. Equilibrative nucleoside transporters (ENTs) are highly expressed in the hippocampus and widely accepted as critical regulators of adenosine tone. However, the mechanisms regulating the surface distribution and transport function of ENTs are largely unknown. Since ENT1 and ENT2 contain consensus sequences for phosphorylation by protein kinase CK2, and because this protein has been reported to regulate synaptic plasticity and ENT function in non-neuronal systems, the present thesis outlines the hypothesis that CK2-induced phosphorylation of ENTs is important for their cellular localization and thus the regulation of adenosine tone and synaptic transmission. Here, a functional interaction between adenosine CK2, ENTs and AMPA receptors in the hippocampus is reported. Western blot analysis shows that a variety of CK2 inhibitors (DMAT, TBB and DRB) significantly reduced the density of ENT1 and ENT2 proteins in hippocampal membrane fractions, suggesting that CK2-mediated phosphorylation of ENTs promotes their surface localization. In contrast, it was found that the ENT1 inhibitor NBTI significantly increased in the membrane localization of ENT1, relative to the control. Moreover, ENTs were found to immunoprecipitate with GluR1 and GluR2-containing AMPA receptors; and CK2 inhibitors caused a decrease in the membrane localization of GluR2 and GluR1 AMPA receptors. These results suggest a novel signaling complex linking CK2-regulated adenosine transport to AMPA receptor trafficking in the rat hippocampus. Although the physiological significance of these findings requires further investigation, this thesis provides insight into an adenosine regulation pathway that may be important for the regulation of synaptic transmission and neuroprotection in the rat hippocampus. adenosine protein kinase CK2 GluR1 equilibrative nucleoside transporter hippocampus GluR2
3	Estudo da expressão das subunidades GluR1 e GluR2 no hipocampo de ratos após lesão por NMDA e avaliação do efeito neuroprotetor da Parawixina 10 / Study of the expression of GluR1 and GluR2 in hippocampus of rats after injury by NMDA and evaluation of the neuroprotective effect of Parawixina 10. Fachim, Helene Aparecida 28 March 2013 (has links) Tem sido demonstrado o envolvimento do glutamato, através de diferentes receptores, nos mecanismos excitotóxicos que levam à morte neuronal na maioria das doenças neurodegenerativas do Sistema Nervoso Central (SNC). Adicionalmente, a Parawixina 10 (Pwx 10) tem sido demonstrada possuir efeito neuroprotetor em modelos de lesão atuando sobre o transporte de glutamato. Os objetivos gerais deste trabalho foram: i) estudar, em um curso temporal (24h, 1, 2 e 4 semanas), as alterações na expressão dos receptores AMPA no hipocampo de ratos induzidas pela injeção local de NMDA e ii) estudar o efeito neuroprotetor da Pwx 10 neste modelo. Foram utilizados ratos Wistar machos, submetidos à cirurgia estereotáxica para a microinjeção de salina ou NMDA no hipocampo dorsal. Alguns grupos de animais foram tratados com Pwx 10 a partir de 1h ou 24h após NMDA. O teste comportamental no labirinto aquático de Morris (LAM) e a coloração de Nissl foram realizados para verificar a extensão e eficácia da lesão por NMDA e o efeito neuroprotetor da Pwx 10. A expressão dos receptores foi estudada através do método de imunoistoquímica. Foram também realizados experimentos de imunofluorescência para GFAP e NeuN para avaliação da gliose e presença de neurônios na área lesada. Foi observado comprometimento das funções de aprendizado e memória no LAM, além de intensa perda de células neuronais e proliferação glial na região do CA1 que recebeu o NMDA, comprovando a eficiência da lesão pelo agonista. Observamos um curso temporal de diferentes alterações na expressão das subunidades GluR1 e GluR2 dos receptors AMPA no hipocampo, que podem ser relacionadas ao complexo mecanismo que ocorre em resposta à microinjeção de NMDA resultando em uma lesão local e na ativação da plasticidade neuronal. O tratamento com Pwx 10 apresentou efeito neuroprotetor, sendo este mais pronunciado quando a toxina foi administrada a partir de 1h após o agonista. / It has been shown the involvement of glutamate, through different receptors, on the excitotoxic mechanisms which result on the neuronal death reported in most neurodegenerative disorders of the CNS. In addition, Parawixina 10 (Pwx 10) has been demonstrated to act as neuroprotective in models of injury regulating the glutamatergic neurotransmission through glutamate transporters. The aims of this work were: i) to study, in a time course (24h, 1, 2 and 4 weeks), the changes on the expression of AMPA receptors in rat hippocampus induced by NMDA intrahippocampal injection, and ii) to study the neuroprotective effect of Pwx 10 in this moldel. Male Wistar rats has been used, submitted to stereotaxic surgery for saline or NMDA microinjection into dorsal hippocampus. Some groups of animals were treated with Pwx 10 from 1h or 24h after NMDA. The behavioral test on Morris water maze (MWM) and the Nissl staining were performed for evaluating the extension and efficacy of the NMDA injury and the neuroprotective effect of the Pwx 10 . The expression of the receptors was analyzed by immunohistochemistry. The expression of GFAP and NeuN on the lesioned area has also been investigated by immunofluorescency. It was observed the impaiment of learning and memory functions in the MWM, and intense loss of neuronal cells and glial proliferation in CA1 that received the NMDA, confirming the efficiency of the injury by the agonist. We observed a time course of distinct changes on the expression of GluR1 and GluR2 subunits of AMPA receptors in hippocampus, which may be related to the complex mechanism triggered in response to NMDA injection resulting in a local injury and on the activation of neuronal plasticity. The treatment with Pwx 10 showed neuroprotective effect, being most pronounced when the toxin was administrated from 1h after NMDA. AMPA receptors Excitotoxicidade Excitotoxicity GluR1 GluR1 GluR2 GluR2 Hipocampo Hippocampus Memória Memory Neurotoxins Parawixin 10. Parawixina 10. Receptores AMPA
4	Estudo da expressão das subunidades GluR1 e GluR2 no hipocampo de ratos após lesão por NMDA e avaliação do efeito neuroprotetor da Parawixina 10 / Study of the expression of GluR1 and GluR2 in hippocampus of rats after injury by NMDA and evaluation of the neuroprotective effect of Parawixina 10. Helene Aparecida Fachim 28 March 2013 (has links) Tem sido demonstrado o envolvimento do glutamato, através de diferentes receptores, nos mecanismos excitotóxicos que levam à morte neuronal na maioria das doenças neurodegenerativas do Sistema Nervoso Central (SNC). Adicionalmente, a Parawixina 10 (Pwx 10) tem sido demonstrada possuir efeito neuroprotetor em modelos de lesão atuando sobre o transporte de glutamato. Os objetivos gerais deste trabalho foram: i) estudar, em um curso temporal (24h, 1, 2 e 4 semanas), as alterações na expressão dos receptores AMPA no hipocampo de ratos induzidas pela injeção local de NMDA e ii) estudar o efeito neuroprotetor da Pwx 10 neste modelo. Foram utilizados ratos Wistar machos, submetidos à cirurgia estereotáxica para a microinjeção de salina ou NMDA no hipocampo dorsal. Alguns grupos de animais foram tratados com Pwx 10 a partir de 1h ou 24h após NMDA. O teste comportamental no labirinto aquático de Morris (LAM) e a coloração de Nissl foram realizados para verificar a extensão e eficácia da lesão por NMDA e o efeito neuroprotetor da Pwx 10. A expressão dos receptores foi estudada através do método de imunoistoquímica. Foram também realizados experimentos de imunofluorescência para GFAP e NeuN para avaliação da gliose e presença de neurônios na área lesada. Foi observado comprometimento das funções de aprendizado e memória no LAM, além de intensa perda de células neuronais e proliferação glial na região do CA1 que recebeu o NMDA, comprovando a eficiência da lesão pelo agonista. Observamos um curso temporal de diferentes alterações na expressão das subunidades GluR1 e GluR2 dos receptors AMPA no hipocampo, que podem ser relacionadas ao complexo mecanismo que ocorre em resposta à microinjeção de NMDA resultando em uma lesão local e na ativação da plasticidade neuronal. O tratamento com Pwx 10 apresentou efeito neuroprotetor, sendo este mais pronunciado quando a toxina foi administrada a partir de 1h após o agonista. / It has been shown the involvement of glutamate, through different receptors, on the excitotoxic mechanisms which result on the neuronal death reported in most neurodegenerative disorders of the CNS. In addition, Parawixina 10 (Pwx 10) has been demonstrated to act as neuroprotective in models of injury regulating the glutamatergic neurotransmission through glutamate transporters. The aims of this work were: i) to study, in a time course (24h, 1, 2 and 4 weeks), the changes on the expression of AMPA receptors in rat hippocampus induced by NMDA intrahippocampal injection, and ii) to study the neuroprotective effect of Pwx 10 in this moldel. Male Wistar rats has been used, submitted to stereotaxic surgery for saline or NMDA microinjection into dorsal hippocampus. Some groups of animals were treated with Pwx 10 from 1h or 24h after NMDA. The behavioral test on Morris water maze (MWM) and the Nissl staining were performed for evaluating the extension and efficacy of the NMDA injury and the neuroprotective effect of the Pwx 10 . The expression of the receptors was analyzed by immunohistochemistry. The expression of GFAP and NeuN on the lesioned area has also been investigated by immunofluorescency. It was observed the impaiment of learning and memory functions in the MWM, and intense loss of neuronal cells and glial proliferation in CA1 that received the NMDA, confirming the efficiency of the injury by the agonist. We observed a time course of distinct changes on the expression of GluR1 and GluR2 subunits of AMPA receptors in hippocampus, which may be related to the complex mechanism triggered in response to NMDA injection resulting in a local injury and on the activation of neuronal plasticity. The treatment with Pwx 10 showed neuroprotective effect, being most pronounced when the toxin was administrated from 1h after NMDA. Excitotoxicidade GluR1 GluR2 Hipocampo Memória Parawixina 10. Receptores AMPA AMPA receptors Excitotoxicity GluR1 GluR2 Hippocampus Memory Neurotoxins Parawixin 10.
5	MECHANISMS OF NEURODEGENERATION IN A MOUSE MODEL OF SANDHOFF DISEASE: ROLES OF INFLAMMATION, EXCITOTOXICITY, AND APOPTOSIS / MECHANISMS OF NEURODEGENERATION IN A MOUSE MODEL OF SANDHOFF DISEASE Hooper, Alexander William Maurice January 2016 (has links) Lysosomal storage disorders are a group of rare neurodegenerative diseases that are collectively common, sharing many aspects with other neurodegenerative disorders, including substrate build-up and neuroinflammation. The GM2 Gangliosidoses, Tay-Sachs disease and Sandhoff disease, are pathologically overlapping lysosomal storage disorders, with high prevalence within specific ethnicities. Their effects are neurologically devastating and often fatal at young ages. Current treatments only slow or stall an inevitable decline in health. Novel treatment targets are needed for these disorders, and others with similar pathologies. In these works we demonstrate the negative effect the inflammatory cytokine tumour necrosis factor-alpha has on survival of a model of Sandhoff disease. We demonstrate its role in the upregulation of astrogliosis, and apoptosis, and we present evidence that this effect on astrogliosis occurs through an upregulation of the JAK-2/STAT3 pathway. Though fruitful, a singular focus on inflammation/gliosis in these diseases has left a vacuum in the research into neuron specific molecular processes. We observe the development of inflammation, astrogliosis and neuronal processes in our model, and demonstrate a bi-phasic disease progression, in which early onset microgliosis precedes terminal astrogliosis, apoptosis, and a decline in excitatory glutamate receptors, suggesting neuron-specific malfunction. Furthermore, we show that knockout of the synaptic protein neuronal pentraxin 1 retards neurodegeneration and extends the lifespan of Sandhoff disease mice, independent of inflammation or astrogliosis. Through electrophysiology, we provide evidence of dysregulation of glutamate receptors in Sandhoff disease, and show that knockout of neuronal pentraxin 1 provides rescue from this dysregulation. This work expands on research into gliosis in GM2 gangliosidoses, presents the finding of a novel protein isoform, and presents a new focus on non-glial disease mechanisms and treatments for these and other neurodegenerative disorders. / Thesis / Doctor of Philosophy (PhD) / Lysosomal storage disorders are a group of neurological diseases that are debilitating, and often fatal at a young age. Two diseases of this group- Tay-Sachs disease and Sandhoff disease – are similar in their causes and symptoms. Current treatments for these diseases only slow or stall an inevitable decline in health. New targets for treatment are required, and we provide data suggesting several proteins that may fit this criterion. We also provide evidence of the discovery of a new form of one of these proteins, which is found in high levels in the disease, indicating it may be important in these and other neurodegenerative diseases. Finally, we provide findings indicating that a certain cell type, which is largely ignored in current research for these diseases, may be important in the disease progress. These findings increase our knowledge of Tay-Sachs disease and Sandhoff disease, and open new avenues for medicinal intervention. Sandhoff Tay-Sachs Neuronal Pentraxin 1 TNF-alpha Neurodegeneration GluR1 Microgliosis Astrogliosis NP1-38 Bi-Phasic
6	Rab3A as a modulator of homeostatic synaptic plasticity Koesters, Andrew G. 29 August 2014 (has links) No description available. Biomedical Research Neurobiology Neurosciences Physiology Rab3A homeostatic synaptic plasticity GluR1 GluR2 AMPA receptor
7	Molecular mechanisms of AMPA and kainate receptor gating and its implication in synaptic transmission / Molekulare Mechanismen des AMPA- und Kainatrezeptor-Schalt verhaltersund deren Bedeutung in synaptischer Transmission Nagarajan, Naveen 29 October 2002 (has links) No description available. 540 Chemie Mathematics and Computer Science Desensitivierung Aufbau zusammensetzung Heterodimere Interaktion der untereinheiten AMPA modulatoren CX546 GluR1 GluR2 GluR5 GluR6 splice varianten Desensitization Assembly Heterodimers subunit interaction AMPA modulators CX546 GluR1 GluR2 GluR5 GluR6 splice variants 35.69 SU 000: Organische Chemie

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