Identification of a Command Neuron Directing the Expression of Feeding Behavior in <em>Drosophila melanogaster</em>: A Dissertation

Flood, Thomas F.

12 May 2011

Feeding is one of the most important behaviors for an animal’s survival. At a gross level, it is known that the nervous system plays a major role in the expression of this complex behavior, yet a detailed understanding of the neural circuits directing feeding behavior remains unknown. Here we identify a command neuron in Drosophila melanogaster whose artificial activation, using dTrpA1, a heat-activated cation channel, induces the appearance of complete feeding behavior. We use behavioral, genetic, cellular and optical imaging techniques to show that the induced behavior is composed of multiple motor programs and can function to uptake exogenous, even noxious, material. Furthermore, we resolve the neuron’s location to the subesophageal ganglion, characterize its pre and post-synaptic sites, and determine its responsiveness to sucrose stimulation. Interestingly, the neuron’s dendritic field is proximal to sweet sensing axon terminals and its baseline activity corresponds to the fly’s satiation state, suggesting a potential point of integration between sensory, motor and motivational systems. The identification of a command neuron for feeding in a genetically tractable organism provides a useful model to develop a deeper understanding of the neural control of this ubiquitous and evolutionarily ancient behavior.

feeding

neuron activity

Drosophila melanogaster

Feeding Behavior

Neurons

Drosophila Proteins

TRPC Cation Channels

Amino Acids, Peptides, and Proteins

Animal Experimentation and Research

Behavioral Neurobiology

Nervous System

Neuroscience and Neurobiology

The Role of Slow-Wave-Sleep in Hippocampus-Dependent Memory in Aging and Alzheimer's Disease

Ogbeide-Latario, Oghomwen

28 April 2021

Aging and Alzheimer’s disease (AD), are associated with disabling sleep and cognitive deficits. Specifically, aging and Alzheimer’s disease is associated with reduced quantity and quality of the deepest stage of sleep, called slow-wave-sleep (SWS). Interestingly, SWS has been implicated in hippocampus-dependent memory in mice. More importantly, sleep deprivation, aging, and AD are all associated with deficits in memory. Therefore, I hypothesize that, in aging and AD, the sleep deficits are, at least in part, responsible for memory impairments and increasing the quantity and quality of SWS will reverse these memory deficits. I first developed mouse models of SWS enhancement in aging and AD. Chemogenetic activation of the parafacial zone GABAergic neurons enhances SWS in aged mice as previously described in adult mice. Similarly, in AD mice, SWS enhancement is as effective as in littermate wild-type controls. Then, I used these mouse models to characterize the role of SWS in memory using novel gain-of-sleep experiments. I found that acute SWS enhancement: 1) reduce spatial memory in adult mice and 2) failed to improve spatial memory in aged mice. In a preliminary study, acute SWS enhancement seems to improve contextual memory in AD mice. Collectively, my work provides a novel mouse model of SWS enhancement in aging and AD, offering a pivotal tool to study the role of SWS in physiological functions and neurodegenerative diseases. Furthermore, my results suggest that acute SWS enhancement does not benefit the behavioral manifestation of memory consolidation in adult mice and aged mice.

Slow-wave-Sleep enhancement

Hippocampus-dependent memory

Aging

Alzheimer's Disease

APP/PS1 mice

Mouse Models

Slow Wave Activity

Chemogenetics

Behaviour

Behavioral Neurobiology

Cognitive Neuroscience

Neuroscience and Neurobiology

Effort-Related Motivational Dysfunctions: Behavioral and Neurochemical Studies of the Wistar-Kyoto Rat Model of Depression

Abbott, Brendan

09 July 2018

Depression and related disorders are characterized by motivational dysfunctions, including deficits in behavioral activation and exertion of effort. Animal models of relevance to depression represent a critical starting point in elucidating the neurobiological mechanisms underlying motivational dysfunctions. The present study explored the use of the Wistar-Kyoto (WKY) animal model of depression to examine effort-related functions as measured by voluntary wheel running and performance on a mixed fixed ratio 5/progressive ratio (FR5/PR) operant task. Given the known link between activational aspects of motivation and the mesocorticolimbic dopamine (DA) system, the behavioral effects of d-amphetamine (0.5 and 1.0 mg/kg, IP), a psychostimulant that increases DA release, were evaluated in WKY and control Sprague-Dawley (SD) male and female rats responding on a mixed FR5/PR task. An additional experiment assessed intracellular content of monoamine neurotransmitters and their metabolites in relevant mesocorticolimbic brain regions, including the medial prefrontal cortex, the nucleus accumbens and the ventrolateral striatum using HPLC-ED. WKY rats demonstrated initial effort-related deficits in FR5/PR responding compared to SD controls, which ameliorated with training. Amphetamine significantly decreased FR5 work output, but increased responding on the PR phase in both SD and WKY rats. This effect was more pronounced in SD rats compare to WKY rats. In addition, sex differences were evident both in FR5/PR performance and in the behavioral response to amphetamine treatment. Moreover, females demonstrated higher levels of voluntary wheel-running than males. Finally, tissue concentrations of dopamine were lower in the NA and VLS of WKY compared to SD rats. Taken together, results suggest dysfunctions in mesolimbic DA neurotransmission in the WKY strain, likely underlying the depressive phenotype. The present study represents an important initial step in validating the WKY strain as a rat model of effort-related dysfunctions relevant to depression and other neuropsychiatric disorders.

depression

dopamine

effort

motivation

serotonin

rodent

Behavioral Neurobiology

Biological Psychology

Cognitive Neuroscience

Molecular and Cellular Neuroscience

Other Neuroscience and Neurobiology

Other Psychology

Pharmacology

Systems Neuroscience

Neurobiologically-based Control System for an Adaptively Walking Hexapod

Lewinger, William Anthony

17 March 2011

No description available.

Biology

Computer Science

Electrical Engineering

Mechanical Engineering

Neurobiology

Robotics

Systems Design

biologically-inspired

neurobiology

robotics

legged robotics

hexapod

leg control

mobile robots

Studies in the psychopathology, neurobiology and psychopharmacology of schizophrenia

Emsley, Robin

03 1900

Dissertation (DSc)-- Stellenbosch University, 2008. / ENGLISH ABSTRACT: The overall aim of these studies was to investigate selected aspects of psychopathology, neurobiological abnormalities and treatment in schizophrenia. The following topics were researched: 1. Psychopathology: We explored the symptom structure of schizophrenia by means of principal components and factor analysis in two separate samples. a. The first study investigated the nature of symptoms in patients with a first-episode of schizophrenia, in a large cohort of patients who were participating in a multinational clinical trial. We compared our findings with similar analyses previously conducted in multi-episode schizophrenia patients. b. We then assessed the influence of culture on the symptom structure of schizophrenia by conducting a principal components and factor analysis of the symptom ratings in a large sample of South African Xhosa patients with schizophrenia, and comparing the results with those in other parts of the world. c. We investigated the occurrence of co-morbid depressive and anxiety symptoms, and their demographic and clinical correlates. The sample for this study comprised acutely psychotic patients who were participants in clinical drug trials conducted at our centre. d. To explore the relationships between obsessive-compulsive disorder and schizophrenia, we conducted a review of the relevant literature. 2. Neurobiological abnormalities: a. We performed a series of studies to investigate disorders of water homeostasis and vasopressin secretion in schizophrenia. To test the hypothesis that acutely psychotic patients have disordered regulation of water homeostasis, we applied a dynamic suppression test - a water loading test, with assessment of excretory capacity (including arginine vasopressin assay) in acutely psychotic patients. To evaluate whether a subset of patients with schizophrenia and co-morbid disordered water homeostasis sustained cerebral damage as a consequence of water intoxication we did the following experiment: We identified a cohort of subjects with schizophrenia and disordered water homeostasis and compared them with patients with schizophrenia without disordered water homeostasis in terms of cerebral ventricular size and cognitive function. To assess the prevalence of disordered water homeostasis in a long-term inpatient sample of psychiatric patients we conducted serum sodium screening tests. Those subjects with dilutional hyponatraemia were then further investigated for dysregulation of water homeostatic mechanisms. b. We studied neurological soft signs in a sample of subjects with first-episode schizophrenia followed up over a two year period. We investigated their occurrence, relationships to psychiatric symptoms and medication effects, their temporal stability and their outcome correlates. We also investigated their potential to predict outcome in schizophrenia 3. Treatment aspects A great deal of our work has focussed on the pharmacological treatment of schizophrenia. The following aspects of treatment are included in this thesis: a. Treatment effects on psychiatric symptoms: i. To assess the effects of ethnicity on treatment outcome in schizophrenia we compared the acute response to antipsychotic treatment in 3 ethnic groups, namely blacks, coloureds and whites. We included patients in this analysis who had participated in clinical trials in our department as well as the Department of Psychiatry in the University of the Free Sate. Patients had been treated under blinded conditions over a 6-week period. ii. After discussions with the late Dr David Horrobin, who had pioneered possible applications of the omega-3 fatty acids in the treatment of various psychiatric disorders, we became interested in further investigating the potential of this group of compounds as an affordable adjunct to treating schizophrenia. We assessed the antipsychotic potential of the omega-3 fatty acid, ethyl-eicosapentaenoic-acid (e-EPA) supplementation versus placebo supplementation in a small sample of subjects with schizophrenia who had been only partially responsive to antipsychotic treatment previously. We also conducted a review of the literature to evaluate the evidence for efficacy for the omega-3 fatty acids in schizophrenia according to published studies. b. Treatment effects on neurological abnormalities: i. In a single-blinded controlled study we compared a new generation antipsychotic to a conventional antipsychotic in the treatment of tardive dyskinesia (TD). This was a long-term (1 yr) study in patients with chronic schizophrenia and established tardive dyskinesia. ii. We also assessed the effect of omega-3 fatty acid (e-EPA) supplementation in treating TD. This was conducted in a larger sample (n=84) of patients with chronic schizophrenia and established TD. The blinded, placebo-controlled phase was 12 weeks. This was followed by an open-label extension for 40 weeks. c. Conventional versus new generation antipsychotic agents. Several evidence-based literature reviews of the efficacy and tolerability of the new generation of antipsychotics compared to the conventional agents were conducted. Some multinational, randomised, controlled clinical trials in which the author was principal investigator, are included in this thesis. Also, studies addressing patients with partial treatment refractoriness are included, as well as studies of the effects of antipsychotics on depressive symptoms, body mass and glycaemic control. Finally, we have included a pharmacoeconomic study comparing a conventional antipsychotic (haloperidol) with a new generation antipsychotic (quetiapine) in partially refractory patients in a South African setting. Findings and conclusions: 1. Psychopathology: Our studies demonstrated that the factor structure for the symptoms of schizophrenia is replicable across samples, and is not greatly influenced by ethnic and cultural factors. However, changes in the factor structures do occur over time. There are symptom domains that are present in first-episode schizophrenia but disappear as a distinct entity as the illness becomes chronic. Particularly, a motor component is evident in untreated patients, but disappears after initiation of treatment. We found that depression and anxiety are common co-morbid symptoms in schizophrenia, and have important clinical and outcome correlates. Depressive symptoms in the acute psychotic phase of schizophrenia are associated with a favourable prognosis and diminish as the symptoms of psychosis improve in response to antipsychotic treatment. However, persistent depressive symptoms are associated with a poorer prognosis, and require additional therapeutic intervention. 2. Neurobiological abnormalities: We investigated the occurrence of disordered water regulation in a population of psychiatric inpatients, and conducted further investigations on those identified, in order to establish mechanisms involved. Polydipsia and the syndrome of inappropriate antidiuretic hormone secretion (SIADH) were found to occur in a subset of patients with schizophrenia, and are associated with acute psychosis, as well as with some psychotropic medications. These patients are characterised by more severe cognitive impairment and evidence of cerebral atrophy. The condition can become life-threatening in the presence of other factors impeding water excretion, particularly thiazide diuretics. Neurological soft signs were investigated in a sample of patients with a first-episode of schizophrenia. These soft signs appear to be trait-like (present early in the illness, and stable over time), except for a motor sequencing factor. Patients performing poorly on this latter group of tests have a longer duration of untreated psychosis, and are at significant risk for developing TD. 3. Treatment aspects: Our studies suggest that there are important ethnic differences in antipsychotic treatment response, but that these differences could be explained by a number of environmental and biological factors. As was found with many studies worldwide, we found that the new generation antipsychotics have important efficacy and safety advantages over their predecessors. Risperidone was as effective as haloperidol in first-episode psychosis, but with a more favourable side-effect profile in terms of reduced extrapyramidal symptoms. Quetiapine treatment in partially refractory patients resulted in more responders compared to haloperidol, and fewer extrapyramidal symptoms. However, evidence of a different side-effect profile is emerging. Of particular concern is the finding that some of the new antispychotics cause weight gain, glucose intolerance and dyslipidaemias. We found that one novel antipsychotic, quetiapine, was not associated with significantly more weight gain or disordered glucose metabolism that a conventional agent, haloperidol. The omega-3 fatty acids, particularly EPA may have a role in the treatment of various psychiatric disorders. Our studies provided mixed results – the first found a significant beneficial effect on psychotic symptoms and dyskinesia scores for EPA supplementation, while the second failed to demonstrate a beneficial effect on TD or psychotic symptoms. We explored the early treatment response in first-episode psychosis and found, unlike that reported in multi-episode patients, some patients took a long time to respond. We also found that early treatment response was a significant predictor of later remission, as was duration of untreated psychosis, educational level and baseline excitement factor scores. Finally, our pharmacoeconomic study conducted for South African circumstances in patients with a partial response to conventional antipsychotic treatment showed cost-neutrality or cost-benefits for quetiapine compared with haloperidol treatment for direct costs. / AFRIKAANSE OPSOMMING: Die oorkoepelende doel van hierdie studies was om geselekteerde aspekte van psigopatologie, neurobiologiese abnormaliteite en behandeling in skisofrenie te ondersoek. Die volgende onderwerpe is nagevors: 4. Psigopatologie: Ons het die simptoomstruktuur van skisofrenie ondersoek deur middel van hoofkomponent- en faktoranalise in twee aparte steekproewe. a. Die eerste studie het die aard van simptome in pasiënte, met ʼn eerste-episode van skisofrenie, ondersoek in ʼn groot kohort van pasiënte wat deelgeneem het aan ʼn multi-nasionale kliniese proefneming. Ons het ons bevindinge vergelyk met soortgelyke analises wat voorheen gedoen is in multi-eposode skisofrenie pasiënte. b. Hierna het ons die invloed van kultuur op die simptoom struktuur van skisofrenie geassesseer deur ʼn hoofkomponent- en faktoranalise van die simptoomtellings uit te voer in ʼn groot steekproef van Suid-Afrikaanse Xhosa pasiënte met skisofrenie en die resultate te vergelyk met bevindinge in ander dele van die wêreld. c. Ons het die voorkoms van ko-morbiede depressiewe en angssimptome ondersoek, asook hul demografiese en kliniese korrelate. Die steekproef vir hierdie studie het bestaan uit akute psigotiese pasiënte wat deelnemers was in ʼn kliniese geneesmiddel proef wat uitgevoer is by ons sentrum. d. Om die verband tussen obsessief-kompulsiewe steurnis en skisofrenie te verken, het ons ʼn oorsig van die relevante literatuur gedoen. 5. Neurobiologiese abnormaliteite: a. Ons het ʼn reeks studies uitgevoer om steurnisse in water homeostase en vasopressien sekresie in skisofrenie te ondersoek. Om die hipotese dat akute psigotiese pasiënte versteurde regulering van water homeostase het te ondersoek, het ons ʼn dinamiese onderdrukkingstoets toegepas – ʼn water ladingstoets, met assessering van ekskresiekapasiteit (insluitend arginien vasopressien essai) in akute psigotiese pasiënte. Om te evalueer of ʼn onderafdeling van skisofrenie pasiënte met ko-morbiede versteurde water homeostase serebrale skade opgedoen het as gevolg van water intoksikasie, het ons die volgende eksperiment uitgevoer: Ons het ʼn kohort deelnemers met skisofrenie en versteurde water homeostase geïdentifiseer en hulle vergelyk met skisofrenie pasiënte sonder versteurde water homeostase in terme van serebrale ventrikulêre grootte en kognitiewe funksionering. Om die voorkoms van versteurde water homeostase in ʼn langtermyn binne-pasiënt steekproef van psigiatriese pasiënte te bepaal, het ons serum natrium siftingstoetse uitgevoer. Deelnemers met hiponatremie is hierna verder ondersoek vir disregulering van water homeostatiese meganismes. b. Ons het neurologiese sagte tekens in ʼn steekproef van deelnemers met eersteepisode skisofrenie bestudeer en opgevolg oor ʼn twee jaar tydperk. Ons het hulle voorkoms, verwantskappe met psigiatriese simptome en medikasie effekte, hulle temporale stabiliteit en hul uitkoms korrelate ondersoek. Ons het ook hulle potensiaal om die uitkoms in skisofrenie te voorspel, ondersoek. 6. Behandelings aspekte ʼn Groot meerderheid van ons werk het gefokus op die farmakologiese behandeling van skisofrenie. Die volgende aspekte van behandeling is ingesluit in hierdie tesis: a. Behandelingseffekte op psigiatriese simptome: i. Om die effek van etnisiteit op behandelingsuitkoms in skisofrenie te assesseer, het ons die akute respons op anti-psigotiese behandeling in 3 etniese groepe vergelyk, naamlik swart, gekleurd, en wit. Ons het pasiënte wat deelgeneem het aan kliniese proefnemings in ons departement sowel as die Departement Psigiatrie van die Universiteit van die Vrystaan ingesluit in hierdie analise. Pasiënte is behadel onder geblinde toestande oor ʼn tydperk van 6 weke. ii. Na besprekings met wyle Dr David Horrobin, wie die moontlike toepassings van omega-3 vetsure in die behandeling van verskeie psigiatreise steurnisse gepionier het, het ons begin belangstel in verdere ondersoek na die potensiaal van hierdie groep samestellings as ʼn bekostigbare toevoeging in die behandeling van skisofrenie. Ons het die anti-psigotiese potensiaal van die omega-3 vetsuur, etieleikosapentanoësuur (e-EPA) supplementasie versus plasebo supplementasie ondersoek in ʼn klein steekproef van deelnemers met skisofrenie wat slegs gedeeltelik responsief was op anti-psigotiese behandeling in die verlede. Ons het ook ʼn literatuuroorsig gedoen om die bewyse vir die effektiwiteit vir die omega-3 vetsure in skisofrenie te evalueer volgens gepubliseerde studies. b. Behandelingseffekte op neurologiese abnormaliteite: i. In ʼn enkelblinde kontrole studie het ons ʼn nuwe generasie anti-psigotiese medikasie vergelyk met ʼn konvensionele anti-psigotiese medikasie in die behandeling van tardiewe diskinesie (TD). Hierdie was ʼn langtermyn (1- jaar) studie in pasiënte met chroniese skisofrenie en vasgestelde TD. ii. Ons het ook die effek van omega-3 vetsuur (e-EPA) suplementasie geassesseer in die behandeling van TD. Dit was gedoen in ʼn groter steekproef (n=84) van pasiënte met chroniese skisofrenie en vasgestelde TD. Die blinde, placebo kontrole fase was 12 weke. Dit is gevolg deur ʼn nie-geblinde ekstensie vir 40 weke. c. Konvensionele versus nuwe generasie anti-psigotiese agente. Verskeie bewys-gebaseerde literatuuroorsigte oor die effektiwiteit en toleransie van die nuwe generasie anti-psigotiese agente in vergelyking met die konvensionele agente, is gedoen. Sommige multi-nasionale, ewekansige, kontole kliniese proefnemings waarin die outeur die hoofnavorser was, is ingesluit in hierdie tesis. Verder, studies wat die pasiënte met gedeeltelike behandelingsweerstandigheid aanspreek, is ingesluit, sowel as studies oor die effekte van anti-psigotiese agente op depressiewe simptome, liggaamsmassa en glisemiese kontrole. Laastens, het ons a farmakoekonomiese studie ingesluit wat die konvensionele anti-psigotiese behandeling (haloperidol) met ʼn nuwe generasie anti-psigotiese behandeling (quetiapien) in gedeeltelik weerstandige pasiënte in ʼn Suid-Afrikaanse ligging vergelyk. Bevindinge en gevolgtrekkings: 4. Psigopatologie: Ons studies het gedemonstreer dat die faktor struktuur vir die simptome van skisofrenie herhaalbaar is oor steekproewe, en dat dit nie grootliks beïnvloed word deur etnisiteit en kulturele faktore nie. Veranderinge vind egter in die faktor strukture wel plaas met verloop van tyd. Daar is simptoom domeine wat teenwoordig is in eerste-episode skisofrenie, maar verdwyn as ʼn afsonderlike entiteit soos wat die toestand chronies word. Spesifiek, ʼn motoriese komponent is duidelik in onbehandelde pasiënte, maar verdwyn na die aanvang van behandeling. Ons het gevind dat depressie en angs algemene ko-morbiede simptome in skisofrenie is en het belangrike kliniese en uitkoms korrelate. Depressiewe simptome in die akute psigotiese fase van skisofrenie word geassosieer met ʼn gunstige prognose en verminder soos wat die simptome van psigose verbeter in repons op anti-psigotiese behandeling. Egter, volgehoue depressiewe simptome word geassosieer met ʼn swakker prognose en benodig addisionele terepeutiese intervensie. 5. Neurobiologiese abnormaliteite: Ons het die voorkoms van versteurde water regulering ondersoek in ʼn populasie van psigiatriese binne-pasiënte en verdere ondersoek ingestel op dié wie geïdentifiseer is, om die betrokke meganismes vas te stel. Polidipsie en en die sindroom van onvoldoende antidiuretiese hormoon sekresie (SIADH) is gevind om voor te kom in ʼn onderafdeling van pasiënte met skisofrenie, en word geassosieer met akute psigose sowel as met somige psigotropiese medikasie. Hierdie pasiënte word gekenmerk deur meer ernstige kognitiewe beperking en bewyse van serebrale atrofie. Die toestand kan lewensbedreigend raak in die teenwoordigheid van ander faktore wat water ekskresie hinder, veral tiasied diuretikums. Neurologiese sagte tekens is ondersoek in ʼn steekproef van pasiënte met eerste-episode skisofrenie. Hierdie sagte tekens blyk om kenmerkend (teenwoordig vroeg in die siekte, en stabiel oor tyd) te wees, behalwe vir ʼn motoriese volgorde faktor. Pasiënte wat swak vaar op die laasgenoemde groep toetse, het ʼn langer durasie van onbehandelde psigose, en het ʼn beduidende risko om TD te ontwikkel. 6. Behandeling aspekte: Ons studies stel voor dat daar ʼn belangrigke etniese verskil is in anti-psigotiese behandelingsrespons, maar dat hierdie verskille verduidelik kan word deur ʼn aantal omgewings- en biologiese faktore. Soos wat gevind was vir verskeie studies wêreldwyd, het ons gevind dat die nuwe generasie anti-psigotiese agente belangrike effektiwiteit- en veiligheidsvoordele het bo hulle voorgangers. Risperidoon was net so effektief as haloperidol in eerste-episode psigose, maar met ʼn meer gunstige newe-effkte profiel in terme van verminderde ekstrapirimidale simptome. Quetiapien behandeling in veral refraktêre pasiënte het gelei tot meer respondeerders vergeleke met haloperidol, en minder ekstra pirimidale simptome. Alhoewel, bewyse van ʼn verskillende newe-effekte profiel is besig om na vore te kom. Van spesifieke belang is die bevinding dat sommige van die nuwe anti-psigotiese agente gewigstoename, glukose intoleransie en dyslipidemie veroorsaak. Ons het gevind dat een nuwe anti-psigotiese agent, quetiapien, nie geassosieer was met enige beduidende meer gewigstoename of versteurde glukose metabolisme as ʼn konvensionele agent, haloperidol, nie. Die omega-3 vetsure, spesifiek EPA mag moontlik ʼn rol in die behandeling van verskeie psigiatriese versteurings hê. Ons studies het gemengde resultate voorsien – die eerste het ʼn beduidende voordelige effek op psigotiese simptome en diskinesie tellings vir EPA supplementasie gevind, terwyl die tweede nie ʼn voordelige effek op TD of psigotiese simptome gevind het nie. Ons het die vroeë behandelingsrespons ondersoek in eersteepisode pasiënte en het gevind, in teenstelling met dit wat gerapporteer word in multi-episode pasiënte, dat sommige pasiënte ʼn lang tyd geneem het om te reaggeer. Ons het ook gevind dat vroeë behandelingsrespons ʼn beduidende voorspeller was van latere remissie, so ook die durasie van onbehandelde psigose, opvoedingspeil, en basisvlak opwindings-faktor tellings. Laastens het ons farma-ekonomiese studie, wat uitgevoer is vir Suid-Afrikaanse omstandighede in pasiënte met ʼn gedeeltelike repons op konvensionele anti-psigotiese behandeling, koste-neutraliteit of koste-voordele aangetoon vir quetiapien vergeleke met haloperidol behandeling vir direkte onkostes.

Schizophrenia

Schizophrenia -- Physiological aspects

Schizophrenia -- Chemotherapy

Psychology, Pathological

Neurobiology

Psychopharmacology

Theses -- Medicine

Dissertations -- Medicine

Benchmarking full-body inertial motion capture for clinical gait analysis

Cloete, Teunis

03 1900

MScEng / Thesis (MScEng (Mechanical and Mechatronic Engineering))--University of Stellenbosch, 2009. / Clinical gait analysis has been proven to greatly improve treatment planning and monitoring of patients suffering from neuromuscular disorders. Despite this fact, it was found that gait analysis is still largely underutilised in general patient-care due to limitations of gait measurement equipment. Inertial motion capture (IMC) is able to overcome many of these limitations, but this technology is relatively untested and is therefore viewed as adolescent. This study addresses this problem by evaluating the validity and repeatability of gait parameters measured with a commercially available, full-body IMC system by comparing the results to those obtained with alternative methods of motion capture. The IMC system’s results were compared to a trusted optical motion capture (OMC) system’s results to evaluate validity. The results show that the measurements for the hip and knee obtained with IMC compares well with those obtained using OMC – with coefficient-of-correlation (R) values as high as 0.99. Some discrepancies were identified in the ankle-joint validity results. These were attributed to differences between the two systems with regard to the definition of ankle joint and to non-ideal IMC system foot-sensor design. The repeatability, using the IMC system, was quantified using the coefficient of variance (CV), the coefficient of multiple determination (CMD) and the coefficient of multiple correlation (CMC). Results show that IMC-recorded gait patterns have high repeatability for within-day tests (CMD: 0.786-0.984; CMC: 0.881-0.992) and between-day tests (CMD: 0.771-0.991; CMC: 0.872-0.995). These results compare well with those from similar studies done using OMC and electromagnetic motion capture (EMC), especially when comparing between-day results. Finally, to evaluate the measurements from the IMC system in a clinically useful application, a neural network was employed to distinguish between gait strides of stroke patients and those of able-bodied controls. The network proved to be very successful with a repeatable accuracy of 99.4% (1/166 misclassified). The study concluded that the full-body IMC system produces sufficiently valid and repeatable gait data to be used in clinical gait analysis, but that further refinement of the ankle-joint definition and improvements to the foot sensor are required.

Inertial motion capture

Dissertations -- Mechanical engineering

Theses -- Mechanical engineering

Gait in humans

Neural networks (Neurobiology)

Role of Alpha Oscillations in Reweighting Multiple Attributes During Choice

Dunham, Samuel I

01 January 2015

In our everyday lives, we must often weigh the different attributes of items in order to select the item that best fits our current goals, allowing us to make optimal decisions. Construal Level Theory proposes a psychological mechanism for re-weighting attributes, utilizing selective attention as the process by which we implement self-control. It has been hypothesized that switching attention between attributes is facilitated by the suppression of cortical oscillations over posterior brain regions within the alpha (8-12 Hz) frequency range. To test this idea, we re-examined previously collected whole-brain electroencephalography (EEG) data from a dietary choice experiment in which participants made decisions naturally or with a weight loss incentive. Prior analysis found that although hungry subjects primarily relied on taste properties while responding naturally, they increased their behavioral and neural weighting of health when motivated to lose weight. Reanalyzing this data using time-frequency analyses, we compared alpha oscillations related to healthy versus unhealthy foods under natural and self-control conditions. We predicted that when participants exercised self-control we would see suppression of alpha oscillations over occipital sensors starting around 400 ms post-stimulus onset, for trials presenting healthy relative to unhealthy foods; no such suppression should appear during natural responding when ignoring health information. Consistent with our hypothesis, we found a significant decrease in alpha oscillations over occipital sensors between 440 and 800 ms post-stimulus onset for healthy compared to unhealthy items in the self-control condition. No such effect was seen for health information in natural choice, or for taste. Our findings extend previous research by linking alpha band suppression to the neural re-weighting of multiple attributes, suggesting a neuro-cognitive mechanism for self-control that uses selective attention to choose between multiple attributes.

Alpha-band

Oscillations

Attributes

Weighting

Self-Control

Cognitive Neuroscience

Life Sciences

Neuroscience and Neurobiology

INTRINSIC AND EXTRINSIC REGULATION OF PINEAL MELATONIN RHYTHMS

Li, Ye

01 January 2016

Circadian rhythm is a biological rhythm with period of about 24 hours. Circadian rhythm is universal in phyla from bacteria to mammals and exists in different level from gene expression to behavior. Circadian system consists of three components: 1) a self-sustained oscillator; 2) an input pathway which can alter the phase of the oscillator; and 3) an output such as gene expression, enzyme activity, hormone production, heart rate, body temperature or locomotor activities. The way the oscillator regulates its outputs is complicated, in that on one hand usually the oscillator is not the only factor affecting the outputs, and on the other, the oscillator itself is incorporated in intricate pathways. Chicken pineal cell culture is a well-established in vitro model to study circadian rhythm. It contains a self-sustained oscillator which can be phase-shifted by light as input and rhythmically releases melatonin as an output. Here I have characterized the role of norepinephrine (NE), the sympathetic regulatory input of pineal gland, and the microenvironment of pineal cells in melatonin rhythmicity of cultured chicken pineal cells. Chapter 1 of this dissertation provides a review of circadian rhythm with a focus on melatonin regulation in pineal gland. Chapter 2 describes the methods to build up a fraction collector which offers high time resolution of sampling for a superfusion system. Chapter 3 is a technical report of a melatonin enzyme-linked immunosorbent assay suitable for high throughput measurement of melatonin. Chapter 4 presents data demonstrating that daily administration of NE recovers damped melatonin rhythm in constant darkness. In addition, NE does not change the expression of clock genes but the recovery effect of NE depends on the internal clock. Furthermore, the data indicates that NE administration stimulates the gene expression of phosphodiesterase 4D (PDE4D) and adenylate cyclase 1 (AC1) in a time order, potentially corresponding to the trough and peak of recovered melatonin rhythm. Chapter 5 presents data showing that the amplitude of melatonin rhythm in cultured pineal cells is affected by microenvironments of the cell culture and connexin plays a role in this effect. Finally, in Chapter 6 I discuss how the results of each chapter demonstrate multiple regulatory mechanism of the melatonin rhythm of chicken pineal cells. Furthermore, I discuss the implications of this work in the field of developmental biology and how the current data will shape future investigations. My dissertation incorporates engineering, immunocytochemistry, chicken genetics, and biochemical analyses, and will help in better understanding the regulation mechanism of output in a circadian system.

Biology

Cell Biology

Endocrinology

Molecular and Cellular Neuroscience

Neuroscience and Neurobiology

MODULATORY ACTIONS OF SEROTONERGIC SYSTEM IN CARDIAC FUNCTION, BEHAVIOR, AND SENSORIMOTOR CIRCUIT ACTIVITY IN DROSOPHILA MELANOGASTER

Majeed, Zana R.

01 January 2016

In this dissertation, I have focused on the role of serotonin (5-HT) as a modulator in heart rate, feeding and locomotion behaviors as well as sensorimotor circuit activity in Drosophila melanogaster. A general overview in the actions of the serotonergic (5-HTergic) system on the larval heart and nervous system in larvae and adults is reviewed in Chapter One. I sought to further study the actions of serotonergic system to provide additional insights into cellular and molecular underpinnings in the actions of 5-HT.In Chapter two, I present studies on mechanisms of action by 5-HT in larvae cardiac system. For this purpose, genetic and pharmacological approaches were used. The transgenic flies used expressed hM4Di receptors (designer receptors exclusively activated by designer drugs (DREADDs)) which were employed to manipulate the activity of Gαi heterotrimeric protein through activation of engineered G-protein coupled receptors hM4Di DREADD. The activation of hM4Di DREADD receptors by clozapine-N-oxide (CNO) arrested the heart beat; however, pharmacological manipulation of adenylyl cyclase activity and cAMP levels had no significant effect on heart rate. In Chapter Three the role of various 5-HT receptor subtypes that mediate 5-HT action in larval cardiac tissue is addressed. In this study, various 5-HT agonists and antagonists were employed. The pharmacological results demonstrate that a 5-HT2 agonist significantly increases the heart rate. Furthermore, 5-HT2 antagonist, markedly reduces the effect of 5-HT. In addition, I employed genetic approaches to corroborate the pharmacological results. In addition, I investigated the role of the 5-HTergic system in locomotion and feeding behaviors as well as in modulation of sensorimotor circuits. This study is delineated in Chapter Four. The 5-HT biosynthesis was dysregulated by feeding Drosophila larvae various pharmacological agents. 5-HT receptor subtypes were manipulated using RNA interference mediated knockdown and 5-HT receptor insertional mutations. Moreover, synaptic transmission at 5-HT neurons was blocked or induced in both larvae and adult flies. The results demonstrate that disruption of components within the 5-HT system significantly impairs locomotor activity and feeding behavior in larvae. In addition, acute activation of 5-HT neurons disrupts normal locomotor activity in adult flies. In Chapter Five, I addressed direct actions of fluoxetine on synaptic transmission at neuromuscular junctions (NMJs), neural properties, and cardiac function unrelated to fluoxetine’s action as a selective 5-HT reuptake inhibitor using Drosophila, crayfish and primary neurons in mouse model system. Fluoxetine application blocked action potentials in crayfish axons, enhanced occurrences of spontaneous synaptic vesicle fusion events at NMJs of both Drosophila and crayfish. In rodent primary neurons, fluoxetine application resulted in increase of cytoplasmic Ca2+. I also developed teaching modules, which are presented in Chapter Seven, to guide students how to exploit a vast array of genetic tools, such as optogenetics in Drosophila to manipulate various neural circuits and to observe their effects on behavior and sensorimotor circuit activity. I also developed a module to teach college level students a hands-on experiment regarding proprioception and tension receptors in crab limb, which is detailed in Chapter Eight.

serotonin

5-HT receptors

heart rate

locomotion and feeding

sensorimotor circuit

Other Neuroscience and Neurobiology

THE EFFECT OF PPARγ ACTIVATION BY PIOGLITAZONE ON THE LIPOPOLYSACCHARIDE-INDUCED PGE₂ AND NO PRODUCTION: POTENTIALUNDERLYING ALTERATION OF SIGNALING TRANSDUCTION

Xing, Bin

01 January 2008

Microglia-mediated neuroinflammation plays an important role in the pathogenesis of Parkinson's disease (PD). Uncontrolled microglia activation produces major proinflammatory factors including cyclooxygenase 2 (COX-2) and inducible nitric oxide synthase (iNOS) that may cause dopaminergic neurodegeneration. Peroxisome proliferator-activated receptor γ (PPARγ) agonist pioglitazone has potent antiinflammatory property. We hypothesize pioglitazone protects dopaminergic neuron from lipopolysaccharide (LPS)-induced neurotoxicity by interacting with relevant signal pathways, inhibiting microglial activation and decreasing inflammatory mediators. First, the neuroprotection of pioglitazone was explored. Second, the signaling transductions such as jun N-terminal kinase (JNK) and the interference with these pathways by pioglitazone were investigated. Third, the effect of pioglitazone on these pathways-mediated PGE2 / nitric oxide (NO) generation was investigated. Finally, the effect of PPARγ antagonist on the inhibition of PGE2 / NO by pioglitazone was explored. The results show that LPS neurotoxicity is microglia-dependent, and pioglitazone protects neurons against LPS insult possibly by suppressing LPS-induced microglia activation and proliferation. Second, pioglitazone protects neurons from COX-2 / PGE2 mediated neuronal loss by interfering with the NF-κB and JNK, in PPARγ-independent mechanisms. Third, pioglitazone significantly inhibits LPS-induced iNOS / NO production, and inhibition of LPS-induced iNOS protects neuron. Fourth, inhibition p38 MAPK reduces LPS-induced NO generation but no effect is found upon JNK inhibition, and pioglitazone inhibits p38 MAPK phosphorylation induced by LPS. In addition, pioglitazone increases PPARγ phosphorylation, followed by the increased PI3K/Akt phosphorylation. Nevertheless, inhibition of PI3K increases LPS-induced p38 MAPK phosphorylation. Inhibition of PI3K eliminates the inhibitive effect of pioglitazone on the LPS-induced NO production, suggesting that the inhibitive effect of pioglitazone on the LPS-induced iNOS and NO might be PI3K-dependent.

Microglia

Dopaminergic neurons

Cytokines

Signaling pathways

Pioglitazone

Medical Anatomy

Medical Neurobiology