Global ETD Search

111	Finding new genes causing motor neuron diseases Gopinath, Sumana January 2007 (has links) Doctor of Philosophy / Abstract Neurodegenerative disorders are a diverse group of disorders that affect specific subsets of neurons. Motor neuron diseases, neurodegenerative disorders of motor neurons, are seen commonly as sporadic cases and less frequently as familial disease forms. The familial forms show genetic and phenotypic heterogeneity. Clinically motor neuron diseases may be seen as rapidly progressive disorders like amyotrophic lateral sclerosis, ALS or slowly progressive disorders like hereditary motor neuropathies, HMN. The only proven causes for motor neuron diseases are gene mutations that lead to motor neuron degeneration in familial disease forms. Only some of these genes have been identified and have contributed greatly to our understanding of the neurobiology of familial and sporadic disease forms. Identification of additional disease causing genes would help enhance our knowledge of the pathophysiological mechanisms underlying all forms of motor neuron disorders, which would lead to early diagnoses, effective prophylaxis and efficient therapies for these disorders. This study aimed to find gene mutations that cause rapid and slowly progressive familial motor neuron disorders in Australian families and to determine their relevance to sporadic forms of motor neuron disease. The familial forms of ALS show reduced disease penetrance, that is, not all gene mutation carriers manifest the disease. This study examines ALS penetrance in a group of Australian families. The most frequently observed mutations in ALS families are cytosolic superoxide dismutase/SOD1 gene mutations. In a collection of ALS families in our centre, families without the common SOD1 gene mutations were genotyped for other ALS genes and loci and studied using genetic linkage and haplotype analyses. Studies in a large Australian ALS family further confirmed genetic heterogeneity in non-SOD familial ALS, all known autosomal dominant ALS genes and chromosomal loci were excluded as cause of disease in this family. Such families can be studied further to identify additional disease genes and loci mapped in other ALS families. These families represent powerful resources for identification of additional ALS genes. Identifying the pathogenic genes in families with reduced disease penetrance may be more relevant to sporadic forms of disease. dHMN is a chronic neurodegenerative disorder predominantly affecting motor neurons. In a large Australian dHMN family, all the known dHMN genes and chromosomal loci were excluded as cause of disease. A genome wide microsatellite screen was performed in this family and genetic linkage was established to a novel 12.98 Mb locus on chromosome 7q34.2-q36. Candidate genes in this large interval will be screened based on their function and expression profile. Identification of a new dHMN locus provides the basis for future identification of a novel gene involved in motor neuron degeneration. Genes in dHMN have been shown to be pathogenic in ALS and Charcot Marie Tooth syndromes. The new locus for dHMN mapped in this project would lead to identification of a novel dHMN gene, which may elucidate the pathogenesis underlying a wide range of neurodegenerative disorders. linkage motor neuron disease, MND Amyotrophic lateral sclerosis, ALS Hereditary motor neuropathy, HMN incomplete penetrance
112	Livskvalitet hos personer med Amyotrofisk lateralskleros (ALS) - En litteraturstudie Englund, Sandra, Mårtensson, Thèrése January 2008 (has links) <p>Syftet med denna studie var att beskriva hur människor med Amyotrofisk lateralskleros (ALS) upplever sin livskvalitet. Metoden som användes var en litteraturstudie med beskrivande design. Olika kombinationer av sökorden ”ALS”, ”amyotrophic lateral sclerosis” ”quality of life”, och ”människor” användes vid sökning i databaserna Medline (PubMed) och Science Direct. Totalt analyserades tretton vetenskapliga artiklar som sedan kvalitetsbedömdes och kategoriserades i fyra kategorier: fysisk, psykisk, social och existentiell livskvalitet. Forskning kring de fysiska aspekterna av livskvalitet visade att det främst är den nedsättande funktionsförmågan och begränsningarna relaterade till sjukdomen som bidrar till det fysiska lidandet. Med tiden ändrades patienternas intressen från mer aktiva till passiva. Till skillnad från detta var upplevelsen av det psykiska lidandet mycket låg. Resultat tillhörande den sociala aspekten visade att patienternas förhållande med familj och vänner var av störst värde för att uppleva livskvalitet samt det främsta stödet för att bemästra de svårigheter som sjukdomen medför. Patienternas religiösa tro och tillgång till präst var av betydande roll vad gällande bemästringen av existentiella frågor och funderingar.</p> / <p>The purpose of this study was to describe how people with Amyotrophic lateral sclerosis (ALS) experience their quality of life. The method used was a study of literature with design description. A various combination of search words, such as “amyotrophic lateral sclerosis”, “ALS”, “quality of life” and “people” were used in searching the computer bases Medline (Pubmed) and Science Direct. In total, thirteen scientific articles were analysed and quality tested, subsequently they were categorized into four categories: physical, mental, social and existential quality of life. Research into the physical aspects surrounding the quality of life showed that it is, above all, the disparaging functional capabilities and restrictions related to the illness which causes the mental suffering. In time, the patients interests changed from active to passive. In contrast to this, the experience of mental suffering was very low. Results of the studies into the social aspects showed that the patients relationship with family and friends was of the greatest value to quality of life, as well as the foremost support towards conquering the difficulties which the illness causes. The patients religious beliefs and access to a priest, play a significant part regarding the conquering of existential questions and thoughts.</p> Amyotrophic lateral sclerosis ALS quality of life people Amyotrofisk lateralskleros ALS livskvalitet människor Nursing Omvårdnad
113	Transmethylation, Polyamines and Apoptosis in Amyotrophic Lateral Sclerosis Ekegren, Titti January 2004 (has links) <p>Amyotrophic lateral sclerosis (ALS) is a relentlessly progressive disorder characterized by degeneration of motor neurons in the cortex, brainstem and spinal cord. The patients usually die within 3-5 years after onset. The full etiology of ALS is unknown and many hypotheses have been proposed to explain the neurodegeneration. However, basic mechanisms of cellular function such as transmethylation and polyamine metabolism have not been extensively studied in ALS. Transmethylation reactions are very important in the synthesis of substrates such as proteins, neurotransmitters, DNA and RNA. The polyamines, putrescine, spermidine and spermine, are involved in essential functions such as cellular growth, proliferation and differentiation.</p><p>An initial study in this thesis concerned the process of neuronal death (apoptosis) in ALS spinal cord. The results showed increased levels of an apoptosis-stimulating protein and increased levels of DNA fragmentation indicative of an apoptotic process in the tissue. A comparative study of MAT-enzyme activity in spinal cord from different mammalian species was undertaken to provide a background for future studies on transmethylation and neurodegeneration. Transmethylation reactions were found altered in erythrocytes from males with ALS but not in spinal cord from ALS patients as compared to controls. An adaptation of previously described polyamine assays was made for the study of polyamines in ALS spinal cord. The method was validated and applied for polyamine analysis in human materials of different characteristics. Determination of polyamines in control and ALS spinal cords showed no major differences. However, in female ALS patients, significantly increased spermidine and spermine levels were observed in ventral horn regions. These gender-related alterations in transmethylation and polyamine metabolism are of interest since there is a male preponderance for the disease.</p><p>The lack of major differences in polyamine levels between ALS and control spinal cord suggests a maintained regulation of polyamines at the end stage of this neurodegenerative disease.</p> Neurosciences amyotrophic lateral sclerosis neurodegeneration transmethylation polyamine apoptosis Neurovetenskap Neurology Neurologi
114	On the Role of Mitochondria in the Regulation of Calcium in Motor Nerve Terminals During Repetitive Stimulation Garcia-Chacon, Luis Ernesto 20 April 2008 (has links) During repetitive stimulation of motor nerve terminals, mitochondrial Ca2+ uptake limits increases in free cytosolic [Ca2+] and helps ensure faithful neuromuscular transmission. Changes in cytosolic [Ca2+] and in mitochondrial [Ca2+] as well as changes in mitochondrial membrane potential (Psi m) were studied in mouse motor nerve terminals using Ca2+ sensitive indicator and potentiometric dyes, respectively. Trains of action potentials (APs) at 50 to 100 Hz produced a rapid increase in mitochondrial [Ca2+] followed by a plateau which usually continued beyond the end of stimulation. After stimulation, mitochondrial [Ca2+] decayed back to baseline over the course of tens of seconds to minutes. Increasing the Ca2+ load delivered to the terminal by increasing the number of stimuli (500-2000), increasing bath [Ca2+], or prolonging the AP with 3,4-diaminopyridine (3-4, DAP, 100 micromolar), prolonged the post-stimulation decay of mitochondrial [Ca2+] without increasing the amplitude of the plateau. Inhibiting openings of the mitochondrial permeability transition pore with cyclosporin A (5 micromolar) had no significant effect on the decay of mitochondrial [Ca2+]. Inhibition of the mitochondrial Na+-Ca2+ exchanger with CGP-37157 (50 micromolar) dramatically prolonged the post-stimulation decay of mitochondrial [Ca2+], reduced post-stimulation residual cytosolic [Ca2+], and reduced the amplitude of end-plate potentials evoked after the end of stimulation. Stimulation-induced mitochondrial Ca2+ uptake resulted in Psi m depolarizations that were small or undetectable at near-physiological temperatures (~30 degrees C). Their amplitude became larger at lower temperatures (~20 degrees C), or when AP duration was increased with 3,4-DAP (20 micromolar). Psi m depolarizations were inhibited by lowering bath [Ca2+] or by blocking P/Q-type Ca2+ channels with omega-agatoxin (0.3 micromolar). Partial inhibition of complex I of the electron transport chain (ETC) with rotenone (50 nM) increased the amplitude of stimulation-induced Psi m depolarizations. These findings suggest that: (1) Ca2+ extrusion from motor terminal mitochondria occurs primarily via the Na+-Ca2+ exchanger and helps sustain post-tetanic transmitter release, and (2) that the depolarization of Psi m that accompanies Ca2+ uptake is limited by accelerated proton extrusion via the ETC.
115	Transmethylation, Polyamines and Apoptosis in Amyotrophic Lateral Sclerosis Ekegren, Titti January 2004 (has links) Amyotrophic lateral sclerosis (ALS) is a relentlessly progressive disorder characterized by degeneration of motor neurons in the cortex, brainstem and spinal cord. The patients usually die within 3-5 years after onset. The full etiology of ALS is unknown and many hypotheses have been proposed to explain the neurodegeneration. However, basic mechanisms of cellular function such as transmethylation and polyamine metabolism have not been extensively studied in ALS. Transmethylation reactions are very important in the synthesis of substrates such as proteins, neurotransmitters, DNA and RNA. The polyamines, putrescine, spermidine and spermine, are involved in essential functions such as cellular growth, proliferation and differentiation. An initial study in this thesis concerned the process of neuronal death (apoptosis) in ALS spinal cord. The results showed increased levels of an apoptosis-stimulating protein and increased levels of DNA fragmentation indicative of an apoptotic process in the tissue. A comparative study of MAT-enzyme activity in spinal cord from different mammalian species was undertaken to provide a background for future studies on transmethylation and neurodegeneration. Transmethylation reactions were found altered in erythrocytes from males with ALS but not in spinal cord from ALS patients as compared to controls. An adaptation of previously described polyamine assays was made for the study of polyamines in ALS spinal cord. The method was validated and applied for polyamine analysis in human materials of different characteristics. Determination of polyamines in control and ALS spinal cords showed no major differences. However, in female ALS patients, significantly increased spermidine and spermine levels were observed in ventral horn regions. These gender-related alterations in transmethylation and polyamine metabolism are of interest since there is a male preponderance for the disease. The lack of major differences in polyamine levels between ALS and control spinal cord suggests a maintained regulation of polyamines at the end stage of this neurodegenerative disease. Neurosciences amyotrophic lateral sclerosis neurodegeneration transmethylation polyamine apoptosis Neurovetenskap Neurology Neurologi
116	Of mice and men : SOD1 associated human amyotrophic lateral sclerosis and transgenic mouse models Graffmo, Karin Sixtensdotter January 2007 (has links) Amyotrophic lateral sclerosis, ALS, is a progressive fatal neurodegenerative disorder affecting motor neurones in motor cortex, brain stem and spinal cord. This inevitably leads to paralysis, respiratory failure and death. In about 5% of patients with ALS there is an association with mutations in gene for the abundant intracellular scavenging enzyme superoxide dismutase1, SOD1. The noxious property of SOD1 is proposed to be due to gain of function. In familial cases the inheritance is most commonly dominant. This study focus on two disparate SOD1 mutations occurring in Scandinavia. The recessive D90A mutation which has properties similar to that of the normal wild-type human SOD1. The dominantly inherited G127insTGGG mutation, G127X, causes a C-terminal truncation of the last 21 amino acids and is a highly unstable protein. Transgenic mice were created expressing D90A and G127X mutated human SOD1. Results from studies of tissue from the central nervous system of patients carrying either of these mutations were compared with similar tissue collected from transgenic mice generated with the same mutations. Tissue from the mice were also compared to central nervous tissue from several other transgenic mouse strains expressing human wild type SOD1 as well as other ALS associated human SOD1 mutations. The transgenic mice expressing D90A respectively G127X mutated human SOD1 develop motor neurone disease. Microscopic studies of central nervous tissues from G127X transgenic mice reveals inclusions of aggregated misfolded SOD1 in motor neurones and adjacent supporting cells. These inclusions are composed of detergent resistant aggregates and preceded by accumulations of minute quantities of detergent-soluble aggregates. The inclusions mimic those found in G127X patients. In D90A transgenic mice the progression, as in the humans, was slower and the mice, as the patients, showed bladder disturbance. In the D90A patients, the SOD1 inclusions mimic those found in sporadic ALS patients. Aggregation of SOD1 in central nervous tissue appears to be related to severity of disease. Degenerative features as vacuolization and gliosis precedes phenotypic alterations. Changes are seen not only in motor areas but also in higher centres of the telencephalon. aggregates ALS amyotrophic lateral sclerosis inclusions misfolded vacuolisation SOD1 transgenic Pathology Patologi
117	SOD1´s Law : An Investigation of ALS Provoking Properties in SOD1 Byström, Roberth January 2009 (has links) Proteins are the most important molecules in the cell since they take care of most of the biological functions which resemble life. To ensure that everything is working properly the cell has a rigorous control system to monitor the proper function of its proteins and sends old or dysfunctional proteins for degradation. Unfortunately, this system sometimes fails and the once so vital proteins start to misbehave or to accumulate and in the worst case scenario these undesired processes cause the death of their host. One example is Amyotrophic Lateral Sclerosis (ALS); a progressive and always fatal neurodegenerative disorder that is proposed to derive from accumulation of aberrant proteins. Over 140 mutations in the human gene encoding the cytosolic homodimeric enzyme Cu/Zn-Superoxide Dismutase (SOD1) are linked to ALS. The key event in SOD1 associated ALS seems to be the pathological formation of toxic protein aggregates as a result of initially unfolded or partly structured SOD1-mutants. Here, we have compared the folding behaviour of a set of ALS associated SOD1 mutants. Based on our findings we propose that SOD1 mediated ALS can be triggered by a decrease in protein stability but also by mutations which reduce the net charge of the protein. Both findings are in good agreement with the hypothesis for protein aggregation. SOD1 has also been found to be able to interact with mitochondrial membranes and SOD1 inclusions have been detected in the inter-membrane space of mitochondria originating from the spinal cord. The obvious question then arose; does the misfolding and aggregation of SOD1 involve erroneous interactions with membranes? Here, we could show that there is an electrostatically driven interaction between the reduced apo SOD1 protein including ALS associated SOD1-mutants and charged lipid membrane surfaces. This association process changes the secondary structures of these mutants in a way quite different from the situation found in membrane free aqueous environment. However, the result show that mutants interact with charged lipid vesicles to lesser extent than wildtype SOD1. This opposes the correlation between decreased SOD1 stability and disease progression. We therefore suggest that the observed interaction is not a primary cause in the ALS mechanism. ALS amyotrophic lateral sclerosis SOD1 protein folding membrane interaction aggregates survival time repulsive charge Biochemistry Biokemi
118	Livskvalitet hos personer med Amyotrofisk lateralskleros (ALS) - En litteraturstudie Englund, Sandra, Mårtensson, Thèrése January 2008 (has links) Syftet med denna studie var att beskriva hur människor med Amyotrofisk lateralskleros (ALS) upplever sin livskvalitet. Metoden som användes var en litteraturstudie med beskrivande design. Olika kombinationer av sökorden ”ALS”, ”amyotrophic lateral sclerosis” ”quality of life”, och ”människor” användes vid sökning i databaserna Medline (PubMed) och Science Direct. Totalt analyserades tretton vetenskapliga artiklar som sedan kvalitetsbedömdes och kategoriserades i fyra kategorier: fysisk, psykisk, social och existentiell livskvalitet. Forskning kring de fysiska aspekterna av livskvalitet visade att det främst är den nedsättande funktionsförmågan och begränsningarna relaterade till sjukdomen som bidrar till det fysiska lidandet. Med tiden ändrades patienternas intressen från mer aktiva till passiva. Till skillnad från detta var upplevelsen av det psykiska lidandet mycket låg. Resultat tillhörande den sociala aspekten visade att patienternas förhållande med familj och vänner var av störst värde för att uppleva livskvalitet samt det främsta stödet för att bemästra de svårigheter som sjukdomen medför. Patienternas religiösa tro och tillgång till präst var av betydande roll vad gällande bemästringen av existentiella frågor och funderingar. / The purpose of this study was to describe how people with Amyotrophic lateral sclerosis (ALS) experience their quality of life. The method used was a study of literature with design description. A various combination of search words, such as “amyotrophic lateral sclerosis”, “ALS”, “quality of life” and “people” were used in searching the computer bases Medline (Pubmed) and Science Direct. In total, thirteen scientific articles were analysed and quality tested, subsequently they were categorized into four categories: physical, mental, social and existential quality of life. Research into the physical aspects surrounding the quality of life showed that it is, above all, the disparaging functional capabilities and restrictions related to the illness which causes the mental suffering. In time, the patients interests changed from active to passive. In contrast to this, the experience of mental suffering was very low. Results of the studies into the social aspects showed that the patients relationship with family and friends was of the greatest value to quality of life, as well as the foremost support towards conquering the difficulties which the illness causes. The patients religious beliefs and access to a priest, play a significant part regarding the conquering of existential questions and thoughts. Amyotrophic lateral sclerosis ALS quality of life people Amyotrofisk lateralskleros ALS livskvalitet människor Nursing Omvårdnad
119	Hur vardagslivet gestaltar sig hos patienter med diagnosen ALS och MS : En studie gjord för att öka kunskapen och förståelsen hos sjuksköterskan / How daily life appears for patients with the diagnosis ALS and MS : A study to increase the knowledge and understanding within nursing care Cartemo, Maria, Starck, Frida, Larsson, Elin January 2008 (has links) Amyotrofisk lateralskleros och multipel skleros är båda neurologiska sjukdomar som orsakar fysiska begränsningar och påverkar vardagslivet. Syftet med studien var att undersöka hur vardagslivet gestaltar sig för dessa patienter. Studien baseras på en kvalitativ metod utifrån sex självbiografier och en biografi, vilket ger en insyn i patienternas egna upplevelser av hur det är att leva med ALS eller MS. Resultatet består av fyra huvudteman; Relationer, Begränsningar, Psykisk hälsa och Tankar. I samband med sjukdomen blir relationer mer betydelsefulla samtidigt som den för med sig påfrestningar i förhållandet. Begränsningarna kan leda till att den sjuke får allt svårare att klara av sin vardag vad det gäller hemmet, fritiden samt arbete. Den psykiska hälsan kan yttra sig som depression och det blir en daglig kamp där de söker mening med livet och försöker ta kontroll över situationen. Tankarna handlar om nya värderingar i livet och deras ovisshet om framtiden samt att acceptera situationen. Denna studie kan öka sjuksköterskans kunskap och förståelse för patientens situation, samt vara till hjälp vid individanpassningen av omvårdnaden för dessa patienter. Den kan även vara till hjälp för andra personer som vårdar dessa patienter, som till exempel anhöriga och annan ansvarig vårdpersonal. / Amyotrophic lateral sclerosis and multiple sclerosis are both neurological diseases that cause physical limitations and have consequences on daily life. The aim of this study was to clarify how this daily life appears for these patients. The study is based on a qualitative method with six autobiographies and one biography, which gives an insight of their own, lived experiences on how it is to live with ALS or MS. The result contains four main subjects; Relations, Limitations, Psychical health and Thoughts. In sickness relations becomes more of value, but it also cause stress within a relationship. The limitations make life more difficult in different aspects, such as home environment, leisure activities and work. The mental health can develop into a depression and it becomes a daily fight where they seek a meaning with life and try to take control over the situation. Thoughts are about new values in life, an uncertainty about the future and to accept the situation. The findings of this study can give nurses more knowledge and understanding and be helpful when adjusting nursing care for each of these individuals. It can also be a help to other people who take care of these patients, such as family members and other involved care staff. Amyotrophic lateral sclerosis Multiple sclerosis Amyotrofisk lateralskleros Multipel skleros Nursing Omvårdnad
120	The Amyotrophic Lateral Sclerosis 8 Mutant VAPB-P56S Causes a Nuclear Envelope and Nuclear Pore Defect Chalhoub, Antonious 23 August 2012 (has links) A P56S mutation in the VAPB MSP domain is linked to adult-onset amyotrophic lateral sclerosis 8. The objective of this study is to characterize the functional role of VAPB in transport of NE and NPC proteins from the ER to the NE. Over-expression of VAPB-P56S blocked the transport of nucleoporins (Nups) and NE proteins, resulting in their sequestration in dilated cytoplasmic membranes. Simultaneous overexpression of the FFAT motif (two phenylalanines in an acidic track) antagonizes mutant VAPB effects and restores transport to the NE. VAPB function is required for transport to the NE because knockdown of endogenous VAPB recapitulates this phenotype. Moreover, the compartment in which Nups and NE proteins are sequestered and retained was identified as ER-Golgi intermediate compartment (ERGIC). Moreover, a defect in the transport of NE and NPC proteins attenuates nucleocytoplasmic shuttling of the glucocorticoid receptor (GR). Further, VAPB-P56S which is only soluble in SDS was solubilized in the Triton-X-100 fraction similar to VAPB-WT upon co-transfection with the FFAT motif suggesting that FFAT interacts with the insoluble VAPB-P56S protein changing its biophysical properties. Nuclear Nups Amyotrophic Lateral Sclerosis VAPB ERGIC gp210 nup214 emerin Nuclear Envelope Nuclear Pore Complex

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