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Experimental Studies of BMP Signalling in Neuronal CellsAlthini, Susanna January 2003 (has links)
<p>The developing nervous system depends largely on extracellular cues to shape its complex network of neurons. Classically, neurotrophins are known to be important mediators in this process. More recently, Bone Morphogenetic Proteins (BMPs), belonging to the Transforming Growth Factor beta (TGFβ) superfamily of secreted cytokines, have been shown to exert a wide range of effects, such as cellular growth, differentiation, survival and apoptosis, both in the developing and adult nervous system. They signal via serine/threonine kinase receptor essentially to the Smad pathway, which carries the signal to the nucleus where the transcription of target genes is regulated.</p><p>This thesis investigates the functions of BMPs in the nervous system, using a set of different models. Firstly, a targeted deletion of GDF10 (BMP3b) in the mouse was established to evaluate the role of this growth/differentiation factor in the hippocampal formation, a brain area known to be involved in memory processing. Other members of the TGFβ superfamily likely compensate for the lack of GDF10, since no detectable alterations in hippocampal function or gene transcription profile have been found. Secondly, a mouse model was set up, with the aim to study impaired BMP-signalling in dopaminergic neurons. The tyrosine hydroxylase (TH) locus was used to drive the expression of dominant negative BMP receptors by means of bicistronic mRNAs. TH is the rate-limiting enzyme in the biosynthesis of catecholamine and the mice described, show a graded decrease of TH-activity resulting in severe to mild dopamine deficiency. The contribution of the dominant negative BMP receptors to the phenotype is however secondary to the apparent TH hypomorphism. The final theme of this thesis is the potentiating effects of BMPs on neurotrophin-induced neurite outgrowth as studied in explanted ganglia from chick embryos and in the rat phaeochromocytoma cell line PC12. A number of pharmacological inhibitors of intracellular signalling kinases were applied to the cultures in order to reveal the contribution of different pathways to the enhanced neurite outgrowth. We made the unexpected finding that inhibition of MEK signalling mimicked the potentiating effects of BMP stimulation in the chick system. The underlying mechanisms for the synergistic effects, however, are still an enigma.</p>
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Experimental Studies of BMP Signalling in Neuronal CellsAlthini, Susanna January 2003 (has links)
The developing nervous system depends largely on extracellular cues to shape its complex network of neurons. Classically, neurotrophins are known to be important mediators in this process. More recently, Bone Morphogenetic Proteins (BMPs), belonging to the Transforming Growth Factor beta (TGFβ) superfamily of secreted cytokines, have been shown to exert a wide range of effects, such as cellular growth, differentiation, survival and apoptosis, both in the developing and adult nervous system. They signal via serine/threonine kinase receptor essentially to the Smad pathway, which carries the signal to the nucleus where the transcription of target genes is regulated. This thesis investigates the functions of BMPs in the nervous system, using a set of different models. Firstly, a targeted deletion of GDF10 (BMP3b) in the mouse was established to evaluate the role of this growth/differentiation factor in the hippocampal formation, a brain area known to be involved in memory processing. Other members of the TGFβ superfamily likely compensate for the lack of GDF10, since no detectable alterations in hippocampal function or gene transcription profile have been found. Secondly, a mouse model was set up, with the aim to study impaired BMP-signalling in dopaminergic neurons. The tyrosine hydroxylase (TH) locus was used to drive the expression of dominant negative BMP receptors by means of bicistronic mRNAs. TH is the rate-limiting enzyme in the biosynthesis of catecholamine and the mice described, show a graded decrease of TH-activity resulting in severe to mild dopamine deficiency. The contribution of the dominant negative BMP receptors to the phenotype is however secondary to the apparent TH hypomorphism. The final theme of this thesis is the potentiating effects of BMPs on neurotrophin-induced neurite outgrowth as studied in explanted ganglia from chick embryos and in the rat phaeochromocytoma cell line PC12. A number of pharmacological inhibitors of intracellular signalling kinases were applied to the cultures in order to reveal the contribution of different pathways to the enhanced neurite outgrowth. We made the unexpected finding that inhibition of MEK signalling mimicked the potentiating effects of BMP stimulation in the chick system. The underlying mechanisms for the synergistic effects, however, are still an enigma.
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DOES PROTEASOME INHIBITION PRODUCE REM SLEEP BEHAVIOUR DISORDER LEADING TO PARKINSON’S DISEASE? EXAMINING A PROGRESSIVE MODEL OF PARKINSON’S DISEASEMcGilvray, Mark 28 April 2010 (has links)
A recent model of Parkinson’s disease (PD) suggests that the neuropathological, behavioural and cognitive symptoms progress in stages. There is substantial evidence for a prodromal stage of PD, during which time pre-motor symptoms develop. Rapid eye movement (REM) sleep behaviour disorder (RBD) is a risk factor for developing PD and may be part of the pre-motor stage. In both disorders, neuropathological α-synuclein aggregates are thought to be a direct cause of the resulting symptoms. One model has shown that in rats, proteasome inhibition produced by systemic exposure to environmental toxins results in α-synuclein pathology and motor behaviour dysfunction that mimics the progression of PD in humans. The present study examined the hypothesis that the systemic proteasome inhibition model would produce pre-Parkinsonian RBD-like pathology in rats. It was expected that sleep disturbances would be seen prior to behavioural disturbances in rats treated systemically with PSI (a proteasome inhibitor). Following baseline sleep recording and training on the inclined beam-traverse task, rats were injected with PSI (a proteasome inhibitor) or ethanol (control), 6 times over 2 wk. Sleep recording over 8 wk and behavioural testing over 16 wk provided no evidence of sleep disturbances or motor dysfunction. Post-mortem immunohistochemical analyses of brain tissue provided no evidence of PSI-associated α-synuclein aggregates in the locus coeruleus, subcoeruleus (dorsal part), or substantia nigra (areas involved in RBD and/or PD). These results did not provide support for RBD as a prodromal phase of PD within the systemic proteasome inhibitor-based model and add to a growing body of research reporting inconsistent findings using this model. We suggest that systemic PSI exposure in rats does not produce a viable model of RBD or PD. Whether RBD is an early symptom in the progression of PD remains to be established. / Thesis (Master, Neuroscience Studies) -- Queen's University, 2010-04-28 12:04:50.613
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Funktionelle Konnektivität der Substantia nigra in einem generellen Aufmerksamkeitstest bei idiopathischem Stottern – eine klinische Studie mittels funktioneller Magnetresonanztomografie / Functional connectivity of the substantia nigra in a continuous performance test in persistent developmental stuttering – a clinical study using functional magnetic resonance tomographyMetzger, Friederike Luise 10 November 2020 (has links)
No description available.
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