Anatomy and Neuroscience - Theses
Permanent URI for this collection
Search Results
1 - 3 of 3
-
ItemFlamingo/Starry Night in embryonic abdominal sensory axon development of Drosophila( 2008)The seven-pass transmembrane atypical cadherin, Flamingo (also known as Starry Night) is evolutionally conserved in both structure and function in vertebrates and invertebrates. It plays important roles during the establishment of planar cell polarity (PCP) of epithelial tissues and during the development of axons and dendrites in both peripheral and central neurons. This thesis looks at the role of Flamingo/Starry Night in axon growth and guidance in the embryonic abdominal peripheral nervous system (PNS) of Drosophila. It describes the expression pattern of Flamingo in the PNS and its environment. A combination of single cell labelling and immunohistochemical techniques was used to define the effect of mutations in flamingo as well as several genes coding for potential Flamingo interaction partners. Rescue- and over-/mis-expression experiments featuring targeted expression of either a wild type version or mutant versions of flamingo provide information on the cellular and molecular mechanisms by which Flamingo regulates sensory axon development. Loss of Flamingo function results in a highly penetrant axon stall phenotype. Both sensory and motor axons frequently halt their advance early along their normal trajectories. Flamingo appears to mediate an axon growth promoting signal upon contact of sensory growth cones with specific early intermediate targets. Expression of Flamingo in sensory neurons is sufficient to rescue the mutant sensory axon phenotype. This rescue is at least partially independent of most of the extracellular region of the Flamingo protein. While Flamingo was previously found to have homophilic adhesion properties in vitro and appears to function by a homophilic mechanism during the neurite development of several types of neurons, this study supports a heterophilic signalling mechanism by which Flamingo fulfils its role in abdominal sensory axon growth promotion.
-
ItemEnteric serotonin interneurons: connections and role in intestinal movement( 2008)5-HT powerfully affects gastrointestinal function. However, the study of these effects is complicated because 5-HT from both mucosa and a subset of enteric neurons acts on multiple receptor subtypes in enteric tissues. The role of neural 5-HT has been difficult to isolate with current techniques. This thesis aimed to elucidate the role of 5-HT neurons in motility using anatomical and functional methods. In Chapter 2, confocal microscopy was used to examine over 95% of myenteric neurons in guinea pig jejunum, categorized neurochemically, to identify neurons that received anatomically-defined input from 5-HT interneurons. The data showed that cholinergic secretomotor neurons were strongly targeted by 5-HT interneurons. In another key finding, excitatory motor neurons were surrounded by 5-HT terminals; this could provide an anatomical substrate for the descending excitation reflex. Subgroups of ascending interneurons and neurons with immunoreactivity for NOS, were also targeted by 5-HT interneurons. Thus, subtypes of these neurons might act in separate reflex pathways. Despite strong physiological evidence for 5-HT inputs to AH/Dogiel type II neurons, few contacts were identified. In Chapter 3, the confocal microscopy survey was extended to the three other interneuron classes (VIP/NOS and SOM descending interneurons; calretinin ascending interneurons) of guinea pig small intestine. A high degree of convergence between the otherwise polarized ascending and descending interneuron pathways was identified.
-
ItemA study of depression in Huntington's disease( 2008)Huntington’s disease (HD) is an inherited neurodegenerative disorder that is caused by a mutation of a single gene, huntingtin. The disease is more commonly known for the characteristic choreiform movements that develop in the later, more advanced stages of the disease. However, cognitive deficits and psychiatric symptoms are frequently observed prior to the onset of the motor symptoms. Little is known about the pathological bases for the neuropsychiatric features which include increased irritability and heightened aggression. Depression affects 30-50% of HD patients and is the most commonly diagnosed psychiatric symptom. This is proportionally higher than in the general population and it is possible that inherent pathological changes in the HD brain render a HD-gene positive individual more susceptible to depression. Using a variety of behavioural tests, the R6/1 transgenic mouse model of HD was found to display altered responses reflective of depression-related behaviour, indicating that the HD mutation confers a genetic susceptibility for developing depression. The behavioural alterations were more robust in female HD mice reflecting a possible sex-dependent manifestation of the depression symptoms in the human HD population that has yet to be investigated. The onset and rate of progression of HD is strongly influenced by the environment and the development of depression is similarly impacted upon by environmental factors (e.g. stress, negative life events). The experimental paradigms of environmental enrichment and wheel-running slow the development of motor and cognitive symptoms in R6/1 HD mice and the present study reports that both paradigms also correct the depression-related behavioural phenotype. This study also found that HD mice had muted responses to two common classes of antidepressant drugs, highlighting the need for a detailed examination of the efficacy of drug treatments in HD patients. Depression susceptibility is linked to genetic variance in the human population and studies of gene candidates in mutant mice report the detection of behavioural phenotypes similar to the present study. The depression-related behavioural phenotype of the R6/1 HD model was found to be associated with early down-regulations in mRNA levels of the ii serotonin (5-HT) 1A and 5-HT 1B receptors in the cortex and the hippocampus. Additionally, female HD mice had reduced cortical 5-HT transporter gene expression. Collectively, these findings indicate that a disruption of serotonergic signaling in the HD brain contributes to the development of depression in HD. Brain-derived neurotrophic factor (BDNF) gene expression is down-regulated in the HD brain, however the expression pattern of exon-specific splice variants was previously unknown. This study reports that BDNF mRNA levels are reduced in the hippocampus by an early age but also reports that individual exon-specific transcripts are differentially down-regulated in males and females, although the functional relevance of this remains to be investigated. Overall, this study has demonstrated that the R6/1 transgenic mouse model of HD is ideal for further investigating the occurrence of depression in pre-motor symptomatic HD. It has also identified alterations in gene expression of key components of neuronal signaling which might be linked to the molecular basis of depression.