Global ETD Search

221	The Drosophila Homolog of the Intellectual Disability Gene ACSL4 Acts in Glia to Regulate Morphology and Neuronal Activity: A Dissertation Quigley, Caitlin M. 15 July 2016 (has links) Recent developments in neurobiology make it clear that glia play fundamental and active roles, in the adult and in development. Many hereditary cognitive disorders have been linked to developmental defects, and in at least two cases, Rett Syndrome and Fragile X Mental Retardation, glia are important in pathogenesis. However, most studies of developmental disorders, in particular intellectual disability, focus on neuronal defects. An example is intellectual disability caused by mutations in ACSL4, a metabolic enzyme that conjugates long-chain fatty acids to Coenzyme A (CoA). Depleting ACSL4 in neurons is associated with defects in dendritic spines, a finding replicated in patient tissue, but the etiology of this disorder remains unclear. In a genetic screen to discover genes necessary for visual function, I identified the Drosophila homolog of ACSL4, Acsl, as a gene important for the magnitude of neuronal transmission, and found that it is required in glia. I determined that Acsl is required in a specific subtype of glia in the Drosophila optic lobe, and that depletion of Acsl from this population causes morphological defects. I demonstrated that Acsl is required in development, and that the phenotype can be rescued by human ACSL4. Finally, I discovered that ACSL4 is expressed in astrocytes in the mouse hippocampus. This study is highly significant for understanding glial biology and neurodevelopment. It provides information on the role of glia in development, substantiates a novel role for Acsl in glia, and advances our understanding of the potential role that glia play in the pathogenesis of intellectual disability. Drosophila intellectual disability ACSL4 Dissertations, UMMS Coenzyme A Ligases Developmental Disabilities Intellectual Disability Neuroglia Neurons Developmental Neuroscience Nervous System Diseases
222	Mechanical Flow Restoration in Acute Ischemic Stroke: A Model System of Cerebrovascular Occlusion: A Dissertation Chueh, Juyu 20 August 2010 (has links) Stroke is the third most common cause of death and a leading cause of disability in the United States. The existing treatments of acute ischemic stroke (AIS) involve pharmaceutical thrombolytic therapy and/or mechanical thrombectomy. The Food and Drug Administration (FDA)-approved recombinant tissue plasminogen activator (tPA) administration for treatment of stroke is efficacious, but has a short treatment time window and is associated with a risk of symptomatic hemorrhage. Other than tPA, the Mechanical Embolus Removal in Cerebral Ischemia (MERCI) retriever system and the Penumbra Aspiration system are both approved by the FDA for retrieval of thromboemboli in AIS patients. However, the previous clinical studies have shown that the recanalization rate of the MERCI system and the clinical outcome of the Penumbra system are not optimal. To identify the variables which could affect the performance of the thrombectomy devices, much effort has been devoted to evaluate thrombectomy devices in model systems, both in vivo and in vitro, of vascular occlusion. The goal of this study is to establish a physiologically realistic, in vitro model system for the preclinical assessment of mechanical thrombectomy devices. In this study, the model system of cerebrovascular occlusion was mainly composed of a human vascular replica, an embolus analogue (EA), and a simulated physiologic mock circulation system. The human vascular replica represents the geometry of the internal carotid artery (ICA)/middle cerebral artery (MCA) that is derived from image data in a population of patients. The features of the vasculature were characterized in terms of average curvature (AC), diameter, and length, and were used to determine the representative model. A batch manufacturing was developed to prepare the silicone replica. The EA is a much neglected component of model systems currently. To address this limitation, extensive mechanical characterization of commonly used EAs was performed. Importantly, the properties of the EAs were compared to specimens extracted from patients. In the preliminary tests of our model system, we selected a bovine EA with stiffness similar to the thrombi retrieved from the atherosclerotic plaques. This EA was used to create an occlusion in the aforesaid replica. The thrombectomy devices tested included the MERCI L5 Retriever, Penumbra system 054, Enterprise stent, and an ultrasound waveguide device. The primary efficacy endpoint was the amount of blood flow restored, and the primary safety endpoint was an analysis of clot fragments generated and their size distribution. A physiologically realistic model system of cerebrovascular occlusion was successfully built and applied for preclinical evaluation of thrombectomy devices. The recanalization rate of the thrombectomy device was related to the ability of the device to capture the EA during the removal of the device and the geometry of the cerebrovasculature. The risk of the embolic shower was influenced by the mechanical properties of the EA and the design of the thrombectomy device. Ischemia Stroke Cerebrovascular Disorders Thrombectomy Biotechnology Cardiovascular Diseases Nervous System Diseases Surgical Procedures, Operative
223	The Cellular Consequences of FUS/TLS Depletion: A Loss of Function Model for Amyotrophic Lateral Sclerosis: A Dissertation Ward, Catherine L. 07 July 2014 (has links) Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by the death of motor neurons, generally leading to paralysis and death within 3-5 years of onset. Over 50 different mutations in the gene encoding FUS/TLS (or FUS) will result in ALS, accounting for ~4% of all inherited cases. FUS is a multifunctional protein with important functions in DNA/RNA processing and stress response. How these mutations affect the structure or function of FUS protein and ultimately cause ALS is not known. The fact that mutations cause the protein to mislocalize from the nucleus to the cytoplasm of cells suggests that ALS pathogenesis may occur through a loss of nuclear function, gain of toxic cytoplasmic function, or both. Several FUS knockout animal models have been utilized for investigating a loss of function hypothesis and show phenotypes such as early lethality, reduced lifespan, and locomotor defects. To uncover cellular pathways affected by loss of FUS function, I have characterized the knockdown of FUS in a motor neuron-like cell line, NSC-34. In NSC-34 cells, the depletion of FUS severely impacts cellular proliferation and potentially causes increased levels of DNA damage. A quantitative proteomics analysis performed on cells undergoing various degrees of FUS knockdown revealed protein expression changes for known RNA targets of FUS, consistent with a loss of FUS function with respect to RNA processing. Proteins that changed in expression as a function of FUS knockdown were associated with vii multiple processes, some of which influence cell proliferation including cell-cycle regulation, cytoskeletal organization, oxidative stress and energy homeostasis. Importantly, cellular proliferation could be rescued by the re-expression of FUS and by treatment with the small-molecule, rolipram, indicative of potential therapeutic approaches. Collectively, the work presented in this dissertation demonstrates the importance of FUS for cell health and homeostasis, is suggestive of a role for FUS in DNA damage repair and identifies additional cellular pathways influenced by FUS depletion. Overall, this work provides mechanistic insight into ALS pathogenesis through loss of FUS/TLS function. Amyotrophic Lateral Sclerosis DNA Damage DNA Repair Motor Neurons RNA-Binding Protein FUS Dissertations, UMMS Molecular and Cellular Neuroscience Nervous System Diseases Neurology
224	Investigating Structural and Functional Defects in ALS-causing Profilin 1 Variants Boopathy, Sivakumar 08 September 2017 (has links) Mutations in profilin 1 (PFN1) cause amyotrophic lateral sclerosis (ALS), a fatal neurodegenerative disease that targets motor neurons. PFN1 is a 15 kDa protein that is best known for its role in actin dynamics. However, little is known about the pathological mechanisms of PFN1 in ALS. In this dissertation, it is demonstrated that certain familial ALS-linked mutations severely destabilize the native conformation of PFN1 in vitro and cause accelerated turnover of the PFN1 protein in neuronal cells. This mutation-induced destabilization can account for the high propensity of ALS-linked variants to aggregate and also provides rationale for their reported functional defects in cell-based assays. The source of this destabilization is illuminated by the crystal structures of several PFN1 proteins, revealing an expanded cavity near the protein core of one ALS variant and predicting a non-surface exposed cavity in another. Functional biochemical experiments point to abnormalities in actin filament nucleation and elongation caused by PFN1 mutants. In HeLa cells, PFN1 is essential for the generation of actin-rich filopodia and expression of mutant PFN1 alters filopodia density further supporting a pathogenesis mechanism involving actin cytoskeleton. Taken together, this dissertation infers that the pathogenesis of ALS due to mutations in PFN1 can be mediated at least by two possibly related mechanisms, a destabilization of the native PFN1 structure and an impact on the actin assembly processes. amyotrophic lateral sclerosis profilin 1 protein stability X-ray crystallography protein misfolding actin dynamics cell biology neurodegeneration Biochemistry Biophysics Cell Biology Molecular Biology Nervous System Diseases Structural Biology
225	Exploring the Role of FUS Mutants from Stress Granule Incorporation to Nucleopathy in Amyotrophic Lateral Sclerosis: A Dissertation Ko, Hae Kyung 03 September 2015 (has links) Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease characterized by preferential motor neuron death in the brain and spinal cord. The rapid disease progression results in death due to respiratory failure, typically within 3-5 years after disease onset. While ~90% of cases occur sporadically, remaining 10% of ALS cases show familial inheritance, and the number of genes linked to ALS has increased dramatically over the past decade. FUS/TLS (Fused in Sarcoma/ Translocated to liposarcoma) is a nucleic acid binding protein that may regulate several cellular functions, including RNA splicing, transcription, DNA damage repair and microRNA biogenesis. More than 50 mutations in the FUS gene are linked to 4% of familial ALS, and many of these may disrupt the nuclear localization signal, leading to variable amounts of FUS accumulation in the cytoplasm. However, the mechanism by which FUS mutants cause motor neuron death is still unknown. The studies presented in this dissertation focused on investigating the properties of FUS mutants in the absence and presence of stress conditions. We first examined how ALS-linked FUS mutants behaved in response to imposed stresses in both cell culture and zebrafish models of ALS. We found that FUS mutants were prone to accumulate in stress granules in proportion to their degree of cytoplasmic mislocalization under conditions of oxidative stress, ER stress, and heat shock. However, many FUS missense mutants are retained predominantly in the nucleus, and this suggested the possibility that these mutants might also perturb one or more nuclear functions. In a human cell line expressing FUS variants and in human fibroblasts from an ALS patient, mutant FUS expression was associated with enlarged promyelocytic leukemia nuclear bodies (PML-NBs) under basal condition. Upon oxidative insult with arsenic trioxide (ATO), PML-NBs in control cells increased acutely in size and were turned over within 12-24 h, as expected. However, PML-NBs in FUS mutant cells did not progress through the expected turnover but instead continued to enlarge over 24 h. We also observed a persistent accumulation of the transcriptional repressor Daxx and the 11S proteasome regulator in association with these enlarged PML-NBs. Furthermore, the peptidase activities of the 26S proteasome were decreased in FUS mutant cells without any changes in the expression of proteasome subunits. These results demonstrate that FUS mutant expression may alter cellular stress responses as manifested by (i) accumulation of mutant FUS into stress granules and (ii) inhibition of PML-NB dynamics. These findings suggest a novel nuclear pathology specific to mutant FUS expression that may perturb nuclear homeostasis and thereby contribute to ALS pathogenesis. Amyotrophic Lateral Sclerosis RNA-Binding Protein FUS Motor Neurons Cell Death Physiological Stress Dissertations, UMMS Stress, Physiological Cell Biology Cellular and Molecular Physiology Molecular and Cellular Neuroscience Nervous System Diseases
226	Approaches and Considerations Towards a Safe and Effective Adeno-Associated Virus Mediated Therapeutic Intervention for GM1-Gangliosidosis: A Dissertation Weismann, Cara M. 05 August 2014 (has links) GM1 gangliosidosis is a lysosomal storage disorder caused by a deficiency in the catabolizing enzyme β-galactosidase (βgal). This leads to accumulation of GM1-ganglioside (GM1) in the lysosome inducing ER stress and cell death. GM1 gangliosidosis is primarily a disorder of the central nervous system (CNS) with peripheral organ involvement. In this work we report two major findings, 1) systemic treatment of GM1 gangliosidosis with an adenoassociated virus (AAV9) encoding mouse-βgal (mβgal) in a GM1 gangliosidosis mouse model (βGal-/-), and 2) an investigation into an intracranial injection of a therapeutic AAVrh8 encoding mβgal. Systemic treatment of GM1 gangliosidosis with AAV9 resulted in a moderate expression of enzyme in the CNS, reduction of GM1 storage, significant retention of motor function and a significant increase in lifespan. Interestingly, the therapeutic effect was more robust in females. Intracranial injections of AAVrh8 vector expressing high levels of βgal resulted in enzyme spread throughout the brain, significant retention of motor function and a significant increase in lifespan. Histological alterations were also found at the injection site in both βGal-/- and normal animals. We constructed a series of vectors with a range of decreasing enzyme expression levels to investigate the cause for the unanticipated result. Microarrays were performed on the injection site and we showed that a lower expressing AAVrh8-mβgal vector mitigated the negative response. Intracranial injection of this newly developed vector was shown to clear lysosomal storage throughout the CNS of βGal-/- mice. Taken together, these studies indicate that a combined systemic and fine-tuned intracranial approach may be the most effective in clearing lysosomal storage completely in the CNS while providing therapeutic benefit to the periphery. Dependovirus G(M1) Ganglioside GM1 Gangliosidosis Genetic Vectors Lysosomal Storage Diseases beta-Galactosidase Dissertations, UMMS Gangliosidosis, GM1 Genetics and Genomics Nervous System Diseases Neuroscience and Neurobiology Therapeutics
227	The Identification and Targeting of Partially-Folded Conformations on the Folding Free-Energy Landscapes of ALS-Linked Proteins for Therapeutic Intervention: A Dissertation Mackness, Brian C 07 April 2016 (has links) The hallmark feature of many neurodegenerative diseases, including amyotrophic lateral sclerosis (ALS), is the accumulation of cytoplasmic inclusions of key disease-linked proteins. Two of these proteins, TDP-43 and SOD1, represent a significant proportion of sporadic and familial ALS cases, respectively. The population of potentially aggregation-prone partially-folded states on the folding free-energy landscape may serve as a common mechanism for ALS pathogenesis. A detailed biophysical understanding of the folding and misfolding energy landscapes of TDP-43 and SOD1 can provide critical insights into the design of novel therapeutics to delay onset and progression in ALS. Equilibrium unfolding studies on the RNA recognition motif (RRM) domains of TDP-43 revealed the population of a stable RRM intermediate in RRM2, with residual structure localized to the N-terminal half of the domain. Other RRM domains from FUS/TLS and hnRNP A1 similarly populate RRM intermediates, suggesting a possible connection with disease. Mutations, which enhance the population of the RRM2 intermediate, could serve as tools for deciphering the functional and misfolding roles of this partially-folded state in disease models, leading to the development of new biomarkers to track ALS progression. ALS mutations in SOD1 have been shown to destabilize the stable homodimer to result in increased populations of the monomeric and unfolded forms of SOD1. Mechanistic insights into the misfolding of SOD1 demonstrated that the unfolded state is a key species in the initiation and propagation of aggregation, suggesting that limiting these populations may provide therapeutic benefit to ALS patients. An in vitro time-resolved Förster Resonance Energy Transfer assay to screen small molecules that stabilize the native state of SOD1 has identified several lead compounds, providing a pathway to new therapeutics to treat ALS. Amyotrophic Lateral Sclerosis Mutation DNA-Binding Proteins Superoxide Dismutase Proteostasis Deficiencies Protein Folding; Protein Conformation Dissertations, UMMS Protein Folding Protein Conformation Biochemistry Nervous System Diseases Structural Biology
228	Investigation of RNA Binding Protein Pumilio as a Genetic Modifier of Mutant CHMP2B in Frontotemporal Dementia (FTD): A Masters Thesis Du, Xing 14 August 2016 (has links) Frontotemporal dementia (FTD) is the second most common early-onset dementia. A rare mutation in CHMP2B gene was found to be associated with FTD linked to chromosome 3. Previous studies have shown that mutant CHMP2B could lead to impaired autophagy pathway and altered RNA metabolism. However, it is still unknown what genes mediate the crosstalk between different pathways affected by mutant CHMP2B. Genetic screens designed to identify genes interacting with mutant CHMP2B represents a key approach in solving the puzzle. Expression of mutant CHMP2B (CHMP2Bintron5) in Drosophila eyes leads to a neurodegenerative phenotype including melanin deposition and disrupted internal structure of ommatidia. The phenotype is easily quantified by estimating the percentage of black dots on the surface of the eyes. Using this established Drosophila model, I searched for genes encoding RNA binding proteins that genetically modify CHMP2Bintron5 toxicity. I found that partial loss of Pumilio, a translation repressor, mitigates CHMP2Bintron5 induced toxicity in the fly eyes. Western blot analysis showed that down regulation of Pumilio does not significantly decrease CHMP2Bintron5 protein level, indicating indirect regulation involved in suppression of the phenotype. The molecular targets regulated by Pumilio and the mechanism underlying CHMP2Bintron5 toxicity suppression by Pumilio down-regulation requires further investigation. Frontotemporal Dementia RNA-Binding Proteins Theses, UMMS Biochemistry Genetics and Genomics Medical Genetics Molecular Biology Nervous System Diseases
229	Reluctance of Adolescents with Cerebral Palsy to Participate in an Online Intervention on Self-management: Lessons Learned from a Randomized Control Trial Thompson, Cynthia T. 01 December 2018 (has links) Purpose: Assess the effectiveness of an online intervention to encourage self-management in adolescents with cerebral palsy (CP). Specific Aims: (a) assess effectiveness of an online intervention to promote readiness for self-management in adolescents with CP, (b) describe health literacy and associations with readiness to assume self-management, and (c) evaluate adolescents’ exposure to the online intervention. Hypotheses: (a) intervention subjects would demonstrate improvement in self-management, and (b) subjects with higher health literacy would demonstrate higher self-management capabilities. Framework: Transtheoretical Model of Health Behavior Change Design: Randomized control trial, performed in a multidisciplinary CP clinic at a university based children’s hospital. Instruments used: (a) Transition Readiness Assessment Questionnaire (TRAQ) and (b) the Health Literacy Skills Instrument-SF (HLSI). Due to low engagement, the study terminated early. Intervention subjects were interviewed to assess their limited engagement. Results: Seventy-five percent of subjects demonstrated inadequate HL. Mean baseline TRAQ score (n=24) was 2.71 (SE = .24). Positive associations were found between TRAQ and age (.47, p = .00) and TRAQ and HL (.48, p = .00). Conclusion: Failure to engage with the intervention appeared to be related to: (a) low HL, (b) low TRAQ scores (indicating subjects in contemplation stage) (c) inconsistency between subjects’ preference for learning and delivery of information, and (d) low motivation for self directed learning. Online interventions should be easy to use and include learning preferences. Lessons learned will inform future development of interventions for this population. Self-management Cerebral Palsy Transition Readiness Health Literacy Transtheoretical Model Behavior and Behavior Mechanisms Health Psychology Information Literacy Nervous System Diseases Nursing Pediatric Nursing
230	Nível de atividade física associado a qualidade do sono e sistema nervoso autônomo de tabagistas e efeitos do exercício físico no sucesso da cessação do tabagismo / Trevisan, Iara Buriola. January 2019 (has links) Orientador: Dionei Ramos / Resumo: Estudos vem investigando a relação do nível da atividade física com a melhora da qualidade do sono de tabagistas, além da utilização do exercício físico para aumentar o sucesso da cessação do tabagismo. No entanto, faz-se necessário investigar a relação da qualidade do sono e sistema nervoso autônomo (SNA) de acordo com o nível de atividade física habitual de tabagistas, para promover a identificação de possíveis mecanismos responsáveis pelos distúrbios do sono desta população, além disso os efeitos do exercício físico no sucesso da cessação do tabagismo ainda é pouco compreendida indicando pequenas taxas de adesão e abstinência ao final do tratamento. Objetivos: Identificar a relação entre a qualidade do sono de tabagistas com o nível de atividade física habitual e modulação do SNA. Além disso, comparar dois tipos de exercícios associados à terapia cognitivo-comportamental (TCC) no sucesso da cessação do tabagismo. Métodos: Trata-se de dois estudos, sendo o primeiro transversal realizado com 42 tabagistas divididos em dois grupos de acordo com o percentil 50% do nível de atividade física de moderada à vigorosa (AFMV) avaliada por meio da acelerometria; onde a qualidade do sono foi avaliada por meio do questionário Mini-Sleep e a modulação do SNA por meio de índices da variabilidade da frequência cardíaca (VFC). Para as análises dos dados foi utilizado análise de covariância (ANCOVA) ajustado para idade, sexo, composição corporal, anosmaço, medicamentos beta-bloqueadores, ans... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Studies has been investigating the relationship of habitual physical activity with improved of sleep quality in smokers, in addition to using exercise to increase the success of smoking cessation. However, it is necessary to investigate the relationship between sleep quality and autonomic nervous system (ANS) according to the level of habitual physical activity of smokers, to promote the identification of possible mechanisms responsible for sleep disorders in this population. The effects of physical exercise on smoking cessation success, it is still poorly understood, indicating low adherence and abstinence rates at the end of treatment. Objectives: To identify changes in the sleep quality of smokers and its relation with habitual physical activity level and ANS modulation. Also, compare two types of exercise associated with cognitive behavior therapy (CBT) in successful smoking cessation. Methods: These are two studies, the first cross-sectional study conducted with 42 smokers divided into two groups according to the 50th percentile of the moderate-to-vigorous physical activity (MVPA) assessed by accelerometry; where the sleep quality was assessed using the Mini-sleep Questionnaire and the ANS modulation was assessed by indices of heart rate variability (HRV). For the analysis of possible mean differences analysis of covariance (ANCOVA) was used adjusting for age, sex, body composition, pack-years, beta-blockers, anxiety, and depression in log base 10. Correlations were made... (Complete abstract click electronic access below) / Doutor Tabagismo. Sono. Doenças do sistema nervoso autônomo Exercício. Abandono do uso de tabaco. Smoking Sleep Autonomic nervous system diseases Exercícios físicos. Tobacco use cessation

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