Global ETD Search

1	Factors important in the survival and functional capacity of intracerebral adrenal and embryonic nigral grafts Barker, Roger Alistair January 1994 (has links) No description available. 571.4 Neurodegenerative disorders
2	Molecular genetic study of autosomal dominant cerebellar ataxia in pedigrees from Cuba and Thailand Twells, Rebecca Christina Joan January 1995 (has links) No description available. 572.8 Neurodegenerative disorders
3	Studies on novel immunophilins and the effects of immunosuppressant drugs on neurons McCann, Fiona Elizabeth January 2001 (has links) No description available. 615 Neurodegenerative disorders
4	Regulation of cell death in sympathetic neurons Edwards, Susan N. January 1992 (has links) No description available. 572.8 Neurodegenerative disorders
5	Modelling Machado-Joseph disease by YAC transgenesis Cemal, Cemal Kubilay January 2001 (has links) No description available. 610
6	Novel adamantane derivatives as multifunctional neuroprotective agents Kadernani, Yakub Esmail Y.E. January 2013 (has links) >Magister Scientiae - MSc / The pathology of neurodegenerative disorders involves multiple steps, and it is probably for this reason that targeting one particular step in a multi-step process has only yielded limited results. Nitric oxide (NO) is synthesised from L-Arginine by an enzyme known as nitric oxide synthase (NOS). Three isoforms of NOS exist, including endothelial NOS (eNOS), neuronal NOS (nNOS), and inducible NOS (iNOS). In the central nervous system (CNS), nNOS is involved in the synthesis of NO, which is involved in various neurological functions. NO is a free radical and this probably explains why an excess amount of it has been implicated in the development of neurodegenerative disorders. In the CNS, the Nmethyl- D-aspartate (NMDA) receptor in its active state allows the influx of calcium ions which activate nNOS thus increasing the amount of NO and other detrimental reactive nitrogen species within neuronal cells. Calcium entry through voltage-gated calcium channels (VGCC) may also contribute to this. Although calcium ions are important for physiological functioning, an excess is responsible for excitotoxicity, which can ultimately lead to neurodegeneration. Our aim was to synthesise a series of adamantane-derived compounds that act at multiple target sites in the neurodegenerative pathway. By conjugating benzyl and phenylethyl moieties with different functional groups (-H, -NO2, -NH2, -NHC(NH)NH2, -OCH3) to the amantadine structure, we aimed to synthesise compounds that display calcium channel and NMDA receptor (NMDAR) channel inhibition, as well as selective inhibition of nNOS. A series of compounds (-H, -NO2, -NH2, -OCH3) were obtained in yields that varied between 16.5 % and 90.25 %. These novel compounds were tested for calcium influx through VGCC and NMDAR inhibition using synaptoneurosomes isolated from rat brain homogenate against the reference compounds MK-801, NGP1-01, amantadine, memantine and nimodipine. A lack of success with the synthesis of the guanidine compounds prevented the use of the oxyhemoglobin capture assay for the determination of nNOS inhibitory activity of these compounds. The novel synthesised compounds display inhibitory activity towards VGCC and the NMDAR in the micromolar range. Further tests are recommended on compounds SE-1, SE-4, SE-11 and SE-12 as they displayed good inhibitory activity against both NMDAR- as well as ii KCl-mediated calcium influx. These novel compounds may be better therapeutic options than amantadine and memantine as they inhibit both NMDAR and VGCC-mediated calcium influx, whereas amantadine and memantine only inhibit NMDA-mediated calcium influx. These novel adamantane derived compounds may possibly serve as novel leads or potential therapeutic agents for the treatment of neurodegenerative disorders. Neurodegenerative disorders Central nervous system
7	Chalcone and curcumin hybrids of indole propargylamines as multifunctional neuroprotective agents Musakwa, Lovetone January 2020 (has links) Magister Pharmaceuticae - MPharm / Neurodegenerative disorders (NDs) are a range of chronic brain disorders that includes amongst others motor function loss. Parkinson’s disease (PD) is one of the common NDs that has an insidious onset and diagnosed when dopaminergic neurons in the substantia nigra are already lost. The loss creates a deficiency of the dopamine (neurotransmitter) thereby causing neurochemical imbalance resulting in the signs and symptoms of PD. NDs overlap at multiple levels so some of the symptoms overlap as well. NDs currently have no cure yet and current drug therapies only improve the quality of life of the patients by targeting the symptoms mainly. Treatment of PD currently involves different classes of drugs and depending on the stages of the disease, some drugs can be only used as an adjunct therapy. Anti-oxidants and monoamine oxidase inhibitors (MAO-I) are part of the treatment options. Neurodegenerative disorders Parkinson’s diseases Monoamine oxidase Oxidative stress Neuroprotection
8	An investigation into the molecular aetiology of Parkinson's disease in South African patients Glanzmann, Brigitte 03 1900 (has links) Thesis (MScMedSc)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Parkinson's disease (PD) is a severely debilitating neurodegenerative disorder that results in motor circuit dysregulation and ultimately, causes impairment of movement. This condition is due to the selective degradation of the dopaminergic neurons in the substantia nigra pars compacta in the midbrain, which subsequently results in the pathological symptoms namely bradykinesia, resting tremor, postural instability and rigidity. It was initially hypothesized that individuals who develop PD were exposed to an environmental trigger(s) that caused the onset of the disease, but more recently, a significant genetic component, coupled to environmental factors have been implicated in disease pathogenesis. Currently, there are eight genes (Parkin, PINK1, LRRK2, SNCA, DJ-1, ATP13A2, EIF4G1 and VPS35) that have been directly implicated in PD. Worldwide, the prevalence of neurodegenerative disorders is increasing as populations are living longer. In Europe, Canada and USA, it has been projected that the prevalence of PD may increase by a factor of two between 2010 and 2050; approximately a 92% increase. In Tanzania (the only study done in sub-Saharan Africa) an even larger increase of 184% between 2005 and 2025 is predicted, due to the fact that the speed of populations ageing in developing countries, will exceed that of developed countries. Research into the causes and risk factors underlying neurodegenerative disorders such as PD is therefore urgently needed for policy makers and governments in developing nations to take appropriate action to deal with this impending health care problem. The aim of the present study was to investigate the molecular aetiology of a group of South African PD patients. A total of 262 patients from various ethnic backgrounds were recruited for the study, and 35% had a positive family history of PD with the average age at onset (AAO) being 54.3 years of age (SD = 12.5 years). Mutation screening of the known PD genes (Parkin, PINK1, LRRK2, SNCA and DJ-1) was performed using high resolution melt and Sanger sequencing. Genotyping was done using fluorescently-labelled PCR primers followed by electrophoresis on an ABI 3130xl genetic analyser (for CTG repeats in JPH3) and with a KASP™ Genotyping Assay (for a 16bp indel in DJ-1). In order to identify a novel PD-causing gene, whole exome sequencing (WES) was conducted on three Afrikaner probands with an Illumina Genome Hiseq 2000TM and the sequences were aligned using the NCBI Human Reference Genome 37.2. The BORG (Bio-Ontological Relationship Graph) semantic database, which models the relationship of human and model organism genes to functions, pathways and phenotypes, was used to filter and prioritise genetic variants shared between the three PD exomes. It was determined that the known PD genes do not play a significant role in disease pathogenesis in the South African patients as only 15/262 (5.7%) of the patients harboured mutations: seven in Parkin, one in PINK1, six in LRRK2 and one in SNCA. Only one of the patients harboured a 16bp indel variant at the transcription start site of DJ-1. None of the Black PD patients had pathogenic repeat expansions in JPH3 thereby excluding Huntington disease-like 2 as a cause of the disease phenotype. Genealogical analysis revealed that six of the apparently unrelated Afrikaner PD probands were related to a founder couple that immigrated to South Africa in the 1600s which suggests that there is a possible founder effect for the disease. Bioinformatics analysis of WES data on three of the probands identified 21 variants in 12 genes that were present in all three PD exomes and fulfilled various criteria. Sanger sequencing was used for verification of five variants and of these, two (in CDC27 and NEDD4) were found to be artefacts. The remaining three (in HECDT1, TBCC and RNF40) were excluded based on the lack of cosegregation with disease and the high frequency of the allele in controls. Further work is necessary to verify the presence of the remaining sixteen variants and to characterise each of them for their possible pathogenicity. The discovery of novel PD-causing genes is important as this may shed light on the pathways or processes that are involved. A current hypothesis implicates the lysosome-dependent pathway as a unifying biochemical pathway that can account for the phenotypic spectrum within PD. Notably, although Mendelian forms are thought to account for only about 10- 15% of cases, the study of Mendelian inherited variants is likely to provide insight into the pathophysiology of the more common sporadic form of this condition. Dissecting the key molecular mechanisms underlying PD will provide critical information for improved treatment strategies and drug interventions that will ultimately prevent or halt neuronal cell loss in susceptible individuals. / AFRIKAANSE OPSOMMING: Parkinson se siekte (PS) is 'n erge neurodegeneratiewe bewegings-siekte, wat motorstroombaan disregulasie veroorsaak. Dit lei uiteindelik tot beperkte bewegings vermoëns. Hierdie toestand word veroorsaak weens die selektiewe agteruitgang van die dopaminergeniese neurone in die substantia nigra pars compacta in die midbrein, wat later lei tot die patologiese simptome naamlik: bradykinesia, rustende spiersametrekkings, posturale onstabiliteit en rigiditeit. Daar is aanvanklik vermoed dat individue wat PS ontwikkel, aan 'n omgewingsfaktor(e) blootgestel is wat die aanvang van die siekte veroorsaak het, terwyl meer onlangs is daar 'n aansienlike genetiese komponent tesame met omgewingsfaktore geïdentifiseer, wat betrokke is by die patogenese van die siekte. Tans is daar agt gene (Parkin, PINK1, LRRK2, SNCA, DJ-1, ATP13A2, EIF4G1 en VPS35) wat direk by PS geïmpliseer is. Wêreldwyd is daar ‗n toenemende voorkoms van neurodegeneratiewe siektes aangesien bevolkings langer leef. In Europa, Kanada en die VSA, is daar geprojekteer dat die voorkoms van PS tussen 2010 en 2050 met 'n faktor van twee verhoog kan word. Dit is ongeveer 'n 92%- verhoging. In Tanzanië (die enigste studie wat tot dusver in sub-Sahara Afrika gedoen is) word daar selfs ‗n groter toename, van 184% tussen 2005 en 2025 voorspel. Dit is te danke aan die feit dat die bevolkings- veroudering in ontwikkelende lande die van ontwikkelde lande sal oorskry. Ondersoeke na die oorsake en risiko-faktore onderliggend aan neurodegeneratiewe siektes, byvoorbeeld PS, word dus dringend benodig deur beleidmakers en regerings in ontwikkelende lande, sodat hulle die nodige stappe kan neem om hierdie dreigende gesondheidsorg-probleem op te los. Die doel van die huidige studie was om ondersoek in te stel na die molekulêre etiologie van 'n groep Suid-Afrikaanse PS pasiënte. 'n Totaal van 262 pasiënte van verskillende etniese agtergronde, is gewerf vir die studie. Hiervan het 35% 'n positiewe familiegeskiedenis van PS en die gemiddelde aanvangs ouderdom (AAO) was 54,3 jaar (SD = 12,5 jaar). Mutasie-analise van die bekende PS gene is uitgevoer met behulp van hoë resolusie smelt en Sanger volgordebepaling. Genotipering is gedoen met behulp van fluoresserend geëtiketteerde PKR inleiers met elektroforese, op 'n ABI 3130xl genetiese analiseerder (CTG herhalings in JPH3), en met 'n KASP ™ Genotipering toets (vir 'n 16bp indel in DJ-1). Ten einde, om 'n nuwe PSveroorsakende geen te identifiseer was heel eksoom volgordebepaling (WES) uitgevoer op drie Afrikaner PS positiewe pasiënte met 'n Illumina Genome Hiseq 2000™ en die volgorders is gerangskik met behulp van die NCBI Menslike Verwysings Genoom 37.2. Die BORG (Bio- Ontologiese Verhoudings Grafiek) semantiese databasis, wat gebaseer is op die verhouding van die mens en model organisme gene funksies, paaie en fenotipes, en is gebruik om genetiese variante, wat gedeel word tussen die drie PS exome te filtreer en te prioritiseer. Daar is vasgestel dat die bekende PS gene nie 'n belangrike rol in die patogenese van die siekte in die Suid-Afrikaanse pasiënte speel nie. Dit is aangesien slegs 15/262 (5.7%) van die pasiënte bekende mutasies dra: sewe in Parkin, een in PINK1, ses in LRRK2 en een in SNCA. Slegs een van die pasiënte het 'n 16bp delesie variant in die transkripsie promotor area van DJ-1 gedra. Geen van die Swart PS pasiënte het patogeniese herhalings in JPH3 vertoon nie. Gevolglik is Huntington siekte-agtige 2 uitgesluit as 'n oorsaak van die siekte fenotipe. Genealogiese analise het getoon dat ses van die skynbaar onverwante Afrikaner PS pasiënte verwant is aan 'n stigter paartjie wat in die 1600's na Suid-Afrika geïmigreer het, wat daarop dui dat daar 'n moontlike stigter effek vir die siekte is. Bioinformatiese analise van WES data vir drie van die pasiënte, het 21 variante in 12 gene geïdentifiseer, wat in al drie PS exome teenwoordig was en verskeie kriteria vervul het. Sanger volgordebepaling is gebruik vir die bevestiging van vyf variante en van hierdie, is twee (in CDC27 en NEDD4) bevind om artefakte te wees. Die oorblywende drie (in HECDT1, TBCC en RNF40) is uitgesluit gebaseer op die gebrek aan gesamentlike-segregasie met die siekte en die hoë frekwensie van die allele in die kontrole groep. Verdere werk is nodig om die teenwoordigheid van die oorblywende variante te verifieer en om elkeen van hulle te karakteriseer vir hulle moontlike patogenisiteit. Die ontdekking van die nuwe PS-veroorsakende gene is belangrik aangesien dit lig kan werp op die stelsels of prosesse wat betrokke is. 'n Huidige hipotese impliseer die lisosoom-afhanklike pad as 'n verenigende biochemiese padweg, wat verantwoordelik is vir die fenotipiese spektrum binne PS. Alhoewel Mendeliese vorms vermoedelik verantwoordelik is vir slegs omgeveer 10-15% van die gevalle, is die studie van Mendelse gene geneig om insig te verkry in die patofisiologie van die meer algemene sporadiese vorm van hierdie toestand. Ontleding van die kern molekulêre meganismes onderliggend aan PS sal kritiese inligting vir beter strategieë vir behandeling en geneesmiddel-intervensies voorsien, wat gevolglik neuronale sel verlies in vatbare individue sal voorkom of beëindig. / Medical Research Council / National Research Foundation / Harry Crossley Foundation Parkinson's disease Neurodegenerative disorders Movement disorders Theses -- Medicine Dissertations -- Medicine Theses -- Genetics Dissertations -- Genetics Biomedical Sciences
9	A Network View on Neurodegenerative Disorders Chandrasekaran, Sreedevi 01 May 2013 (has links) Neurodegeneration is a chronic, progressive and debilitating condition that affects majority of the World's elderly population who are at greater risk. Numerous scientific studies suggest that there could be a common underlying molecular mechanism that promotes the degeneration and the subsequent neuronal loss, however so far the progress in this direction is rather limited. Abnormal protein misfoldings, as well as protein plaque formations in the brain, are some of the hallmark characteristic features of neurodegenerative disorders (NDDs). Genetic and environmental factors, oxidative stress, excessive reactive oxygen species formation, mitochondrial dysfunction, energy depletion and autophagy disruption etc. are some of the widely suspected mechanisms that manifest the cognitive, motor and emotional symptoms of these NDDs. Motivated by some molecular traits found in common in several NDDs, network-based systems biology tools and techniques were used in this study to identify critical molecular players and underlying biological processes that are common for Parkinson's, Alzheimer's and Huntington's disease. Utilizing multiple microarray gene expression datasets, several biomolecular networks such as direct interaction, shortest path, and microRNA regulatory networks were constructed and analyzed for each of the disease conditions. The network-based analysis revealed 26 genes of potential interest in Parkinson's, 16 in Alzheimer's and 30 in Huntington's disease. Many new microRNA-target regulatory interactions were identified. For each disorder, several routes for possible disease initiation and protection scenarios were uncovered. A unified neurodegeneration mechanism network was constructed by utilizing the significantly differentially expressed genes found in common in Parkinson's, Alzheimer's and Huntington's microarray datasets. In this integrated network many key molecular partakers and several biological processes that were significantly affected in all three NDDs were uncovered. The integrated network also revealed complex dual-level interactions that occur between disease contributing and protecting entities. Possibilities of microRNA-target interactions were explored and many such pairs of potential interest in NDDs were suggested. Investigating the integrated network mechanism, we have identified several routes for disease initiating, as well as alleviating ones that could be utilized in common for Parkinson's, Alzheimer's and Huntington's disease. Finding such crucial and universal molecular players in addition to maintaining a delicate balance between neurodegeneration promoters and protectors is vital for restoring the homeostasis in the three NDDs. Neurodegenerative disorders Parkinson's disease Alzheimer's disease Huntington's disease Network biology Network analysis Integrated mechanism Life Sciences
10	Polycyclic compounds as carriers for neuroactive non- steroidal anti-inflammatory drugs Abaniwonda, Modupe January 2017 (has links) Magister Pharmaceuticae - MPharm / Recent scientific findings have highlighted the beneficial roles of polycyclic cage compounds in neurodegenerative disorders such as Alzheimer's and Parkinson's diseases. Further interest into the chemistry of these compounds is stimulated by their remarkable ability to improve the pharmacokinetics profile of known neuroprotective agents. As potent lipophilic scaffolds, they can be employed to target the brain delivery of desired compounds. Inflammation is a key mediator of neuronal cell's degeneration as activated microglia and other inflammatory mediators propagate oxidative damage and neuronal loss. Epidemiological and clinical evidence suggests that non-steroidal anti-inflammatory drugs (NSAIDs) slow down the progression and onset of neurodegenerative diseases. The beneficial effects of NSAIDs in ND can be attributed to their ability to inhibit cyclooxygenase enzymes thereby halting the biosynthesis of prostaglandins (PG) which are powerful mediators of inflammation. NSAIDs also inhibit the expression of pro- inflammatory genes. Despite their potential neuroprotective activity, NSAIDs are poorly lipophilic due to the presence of polar carboxylic acid groups and will therefore ionise at physiological pH, deterring them from reaching the desired site of action in the central nervous system (CNS). Neurodegenerative disorders Oxidative stress Excitotoxicity Polycyclic cage compounds Blood-brain barrier

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