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Statiners effekt på kognitiva funktioner och vid Alzheimers sjukdom; djur- och humanstudierZekarias, Mikaela January 2017 (has links)
Alzheimers sjukdom är en kronisk och obotlig neurodegenerativ sjukdom. Sjukdomen kommer smygandes och drabbar individer sent i livet. En av flera riskfaktorer för att utveckla Alzheimers sjukdom är hyperkolesterolemi. Hyperkolesterolemi kan orsaka en ökad syntes av amyloid-β i hjärnan. Proteinet aggregeras, bildar plack och orsakar celldöd i hjärnan. Syftet med arbetet var att utvärdera om statiner har en effekt på försämrad kognition, en klinisk bild som ses hos patienter med Alzheimers sjukdom. Utvärderingen gjordes efter att vetenskapliga studier sammanställts. Studier har gjorts och görs än idag för att se om en hämmad kolesterolsyntes i hjärnan kan minska syntesen av amyloid-β och därmed reducera risken för att utveckla Alzheimers sjukdom. Alzheimers sjukdom är en komplicerad sjukdom med en oklar sjukdomsorsak och otydliga stadium innan diagnos. Detta försvårar utförandet av studier med ändamål för att utvärdera om statiner kan reducera risken för sjukdomen. Idag finns djur- och humanstudier som visar på olika resultat, både att statiner har en positiv effekt på nedsatt kognition och amyloid-β men även att statiner inte har en effekt på Alzheimers sjukdom.
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Amyloid-β Protofibril Formation and Neurotoxicity : Implications for Alzheimer’s DiseaseJohansson, Ann-Sofi January 2007 (has links)
<p>Alzheimer’s disease (AD) is the most common cause of dementia. A characteristic feature of AD is the presence of amyloid plaques in the cortex and hippocampus of the brain. The principal component of these plaques is the amyloid-β (Aβ) peptide, a cleavage product from proteolytic processing of amyloid precursor protein (APP). A central event in AD pathogenesis is the ability of Aβ monomers to aggregate into amyloid fibrils. This process involves the formation of various Aβ intermediates, including protofibrils. Protofibrils have been implicated in familial AD, as the Arctic APP mutation is associated with enhanced rate of protofibril formation <i>in vitro.</i></p><p>This thesis focuses on Aβ aggregation and neurotoxicity <i>in vitro</i>, with special emphasis on protofibril formation. Using synthetic Aβ peptides with and without the Arctic mutation, we demonstrated that the Arctic mutation accelerated both Aβ1-42 protofibril- and fibril formation, and that these processes were affected by changes in the physiochemical environment. </p><p>Oxidation of Aβ methionine delayed trimer and protofibril formation <i>in vitro</i>. Interestingly, these oxidized peptides did not have the neurotoxic potential of their un-oxidized counterparts, suggesting that formation of trimers and further aggregation into protofibrils is necessary for the neurotoxic actions of Aβ. In agreement, stabilization of Aβ wild type protofibrils with the omega-3 (ω3) fatty acid docosahexaenoic acid (DHA) sustained Aβ induced neurotoxicity; whereas in absence of DHA, neurotoxicity was reduced as Aβ fibrils were formed. These results suggest that the neurotoxic potential of Aβ is mainly confined to soluble aggregated forms of Aβ, not Aβ monomer/dimers or fibrillar Aβ. </p><p>Stabilization of Aβ protofibrils with DHA might seem contradictory, as ω3 fatty acids generally are considered beneficial for cognition. However, we also demonstrated that DHA supplementation reduced Aβ levels in cell models of AD, providing a possible mechanism for the reported beneficial effects of DHA on cognitive measures <i>in vivo</i>.</p>
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Amyloid-β Protofibril Formation and Neurotoxicity : Implications for Alzheimer’s DiseaseJohansson, Ann-Sofi January 2007 (has links)
Alzheimer’s disease (AD) is the most common cause of dementia. A characteristic feature of AD is the presence of amyloid plaques in the cortex and hippocampus of the brain. The principal component of these plaques is the amyloid-β (Aβ) peptide, a cleavage product from proteolytic processing of amyloid precursor protein (APP). A central event in AD pathogenesis is the ability of Aβ monomers to aggregate into amyloid fibrils. This process involves the formation of various Aβ intermediates, including protofibrils. Protofibrils have been implicated in familial AD, as the Arctic APP mutation is associated with enhanced rate of protofibril formation in vitro. This thesis focuses on Aβ aggregation and neurotoxicity in vitro, with special emphasis on protofibril formation. Using synthetic Aβ peptides with and without the Arctic mutation, we demonstrated that the Arctic mutation accelerated both Aβ1-42 protofibril- and fibril formation, and that these processes were affected by changes in the physiochemical environment. Oxidation of Aβ methionine delayed trimer and protofibril formation in vitro. Interestingly, these oxidized peptides did not have the neurotoxic potential of their un-oxidized counterparts, suggesting that formation of trimers and further aggregation into protofibrils is necessary for the neurotoxic actions of Aβ. In agreement, stabilization of Aβ wild type protofibrils with the omega-3 (ω3) fatty acid docosahexaenoic acid (DHA) sustained Aβ induced neurotoxicity; whereas in absence of DHA, neurotoxicity was reduced as Aβ fibrils were formed. These results suggest that the neurotoxic potential of Aβ is mainly confined to soluble aggregated forms of Aβ, not Aβ monomer/dimers or fibrillar Aβ. Stabilization of Aβ protofibrils with DHA might seem contradictory, as ω3 fatty acids generally are considered beneficial for cognition. However, we also demonstrated that DHA supplementation reduced Aβ levels in cell models of AD, providing a possible mechanism for the reported beneficial effects of DHA on cognitive measures in vivo.
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Interaction studies of luminescent conjugated oligothiophenes with aggregated Amyloid βSandberg, Alexander January 2013 (has links)
Alzheimer’s disease is the most common cause of dementia and was responsible for over 2% of all deaths in Sweden 2012. One of the pathological hallmarks is amyloid plaques built by fibrillated Amyloid β. Luminescent conjugated oligothiophenes are known to stain and give characteristic fluorescence spectra when staining amyloid fibrils. Little is however known about the interactions between LCOs and fibrils. Studies have been performed on molecules more traditionally known to stain amyloid fibrils. Studies have also been performed on fibrils using limited proteolysis. So far no studies have been performed using LCOs combined with limited proteolysis in order to study the interaction pattern between LCOs and fibrils. Amyloid β is expressed and purified using a simple few step purification protocol. The amyloid β peptide was then fibrillated in several generations in order to select for a homogenous fibril structure. This purification protocol also has the ability to purify different oligomers of Amyloid β that are interesting from a toxicity point of view. In this thesis optical characteristics and limited proteolysis with mass spectrometry are being used to studies the interactions between LCOs and fibrillated amyloid β. The proteolytic pattern was suggestive of an accessible N-terminal and a hidden C-terminal of Amyloid β M1-42 in the fibril. It was also shown that the proteolysis cleavage pattern of Chymotrypsin is not disrupted when the LCO pKTAA was used to stain fibrils. The emission spectra from the two LCOs pATAA and pKTAA changes differently when subjected to continuous excitation indicative of conformational changes or chemical modification.
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In vitro effect of selected medicinal plants on β-amyloid induced toxicity in neuroblastoma cellsAdewusi, Emmanuel Adekanmi 30 September 2012 (has links)
Neurodegenerative diseases occur as a result of the breakdown and deterioration of the neurons of the central nervous system (CNS). They are commonly found in elderly people and are a major cause of morbidity and mortality, thereby imposing severe strains on the social welfare systems. Alzheimer’s disease (AD) is the most common age-related neurodegenerative disorder. Cholinergic deficit, senile plaque/amyloid-β peptide deposition and oxidative stress have been identified as three main pathogenic pathways which contribute to the progression of AD. The current therapeutic options cause several side-effects and have problems associated with bioavailability. Therefore, the need arises to search for new compounds from natural products with potential to treat AD. Seventeen plants were selected for this study based on their documented ethno-medicinal use in improving memory, to treat insomnia, calm agitated people, and other neurological disorders. The plants were screened for inhibition of acetylcholinesterase (AChE) using the TLC and microtiter plate method. A dose-dependent inhibition of the enzyme was observed and 4.5% of all the plants showed low (<30% inhibition) AChE inhibition. The ethyl acetate extracts of the roots of Crinum bulbispermum, Xysmalobium undulatum, Lannea schweinfurthii, Scadoxus puniceus and bulbs of Boophane disticha had the best AChE inhibition. Although the IC50 of these plant extracts were higher than that of the positive control, galanthamine (0.00053 mg/ml), they showed good AChE inhibitory activity considering they are still mixtures containing various compounds. The antioxidant activity of the plant extracts was determined by their ability to scavenge ABTS (2,2´-azinobis-3-ethylbenzothiazoline-6-sulfonic acid) and DPPH (1,1-diphenyl-2-picryl- hydrazyl) radicals. The dichloromethane/methanol (1:1) extracts of Chamaecrista mimosoides (root), Buddleja salviifolia (whole plant), Schotia brachypetala (root and bark), water extracts of Chamaecrista mimosoides (root), Buddleja salviifolia (whole plant), Schotia brachypetala (root and bark) and methanol extracts of the roots of Crinum bulbispermum, Piper capense, Terminalia sericea, Lannea schweinfurthii and Ziziphus mucronata all showed good antioxidant activity (>50%), in both assays. B. disticha contained very promising AChE inhibition and was subjected to isolation of active compounds using thin layer chromatography, column chromatography and preparative thin layer chromatography. Two compounds, 6-hydroxycrinamine (a crinine-type alkaloid) and cycloeucalenol (a cycloartane triterpene), were isolated for the first time from the bulbs of this plant. 6-Hydroxycrinamine, and two fractions, EAM 17-21 21,22 and EAE 11 (which could not be purified further due to low yield), were found to inhibit AChE with IC50 values of 0.445 ± 0.030 mM, 0.067 ± 0.005 mg/ml and 0.122 ± 0.013 mg/ml, respectively. Cytotoxicity of the isolated compounds and two active fractions was determined on human neuroblastoma (SH-SY5Y) cells using the MTT and neutral red uptake assays. 6- hydroxycrinamine and fraction EAM 17-21 21,22 were found to be toxic with IC50 values of 54.5 μM and 21.5 μg/ml as determined by the MTT assay. The isolated compounds and fractions did not show any protective effect against cell death induced by Aβ25-35 possibly due to the poor antioxidant activity of B. disticha bulbs. Cytotoxicity was also determined for the methanol extracts of the roots of C. bulbispermum, T. sericea, L. schweinfurthii and Z. mucronata, as they contained promising antioxidant activity. C. bulbispermum was the most toxic, reducing cell viability by <40% at the highest concentration tested. Z. mucronata and L. schweinfurthii were the least toxic with IC50 values exceeding 100 μg/ml, the highest concentration tested. Three concentrations of the plant extracts that were not toxic, or presented low toxicity, were selected to evaluate their possible protective effect against cell death induced by Aβ25-35. Pretreatment with Z. mucronata and T. sericea roots showed a dose dependent inhibition of cell death caused by Aβ25-35. Pre-treatment with L. schweinfurthii roots resulted in an optimum dose for inhibition of Aβ25-35 induced cell death at 25 μg/ml, while still maintaining 80% viability. The roots of C. bulbispermum at non-toxic dose still maintained >50% viability. This study confirms the neuroprotective potential of some of the plants which had AChE inhibitory and antioxidant activity. In addition, four of the plants were shown to prevent cell death caused by Aβ25-35. These plants can serve as potential leads in developing drugs relevant to treatment of AD. Furthermore, two new compounds present in the bulbs of B. disticha were identified. Additional investigations need to be carried out by applying QSAR studies to modify the structure of the alkaloid with the aim of reducing its observed toxicity. / Thesis (PhD)--University of Pretoria, 2012. / Pharmacology / unrestricted
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Stabilized low-n amyloid-ß oligomers induce robust novel object recognition deficits associated with inflammatory, synaptic, and GABAergic dysfunction in the ratWatremez, W., Jackson, J., Almari, B., McLean, Samantha, Grayson, B., Neilla, J.C., Fischer, N., Allouche, A., Koziel, V., Pillot, T., Harte, M.K. 06 February 2018 (has links)
Yes / Background:With current treatments for Alzheimer’s disease (AD) only providing temporary symptomatic benefits, disease modifying drugs are urgently required. This approach relies on improved understanding of the early pathophysiology of AD. A new hypothesis has emerged, in which early memory loss is considered a synapse failure caused by soluble amyloid-β oligomers (Aβo). These small soluble Aβo, which precede the formation of larger fibrillar assemblies, may be the main cause of early AD pathologies. Objective:The aim of the current study was to investigate the effect of acute administration of stabilized low-n amyloid-β1-42 oligomers (Aβo1-42) on cognitive, inflammatory, synaptic, and neuronal markers in the rat. Methods:Female and male Lister Hooded rats received acute intracerebroventricular (ICV) administration of either vehicle or 5 nmol of Aβo1-42 (10μL). Cognition was assessed in the novel object recognition (NOR) paradigm at different time points. Levels of inflammatory (IL-1β, IL-6, TNF-α), synaptic (PSD-95, SNAP-25), and neuronal (n-acetylaspartate, parvalbumin-positive cells) markers were investigated in different brain regions (prefrontal and frontal cortex, striatum, dorsal and ventral hippocampus). Results:Acute ICV administration of Aβo1-42 induced robust and enduring NOR deficits. These deficits were reversed by acute administration of donepezil and rolipram but not risperidone. Postmortem analysis revealed an increase in inflammatory markers, a decrease in synaptic markers and parvalbumin containing interneurons in the frontal cortex, with no evidence of widespread neuronal loss. Conclusion:Taken together the results suggest that acute administration of soluble low-n Aβo may be a useful model to study the early mechanisms involved in AD and provide us with a platform for testing novel therapeutic approaches that target the early underlying synaptic pathology.
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Heparan Sulfate in the Amyloidosis and Inflammation of Alzheimer’s DiseaseO'Callaghan, Paul January 2011 (has links)
Alzheimer’s disease (AD) is a neurodegenerative disorder, with extensive evidence implicating the misfolding, aggregation and deposition of the amyloid-β (Aβ) peptide as central to the pathogenesis. Heparan sulfate (HS) is an interactive glycosaminoglycan, attached to core proteins as HS proteoglycans (HSPGs). HSPGs are present on cell surfaces and in the extracellular matrix where they facilitate multiple signaling functions, but HS is also consistently present in all amyloid deposits, including those of AD. In amyloidosis HS has been studied as an aggregation template, promoting fibril formation and serving a scaffold function in the resulting deposits. The objective of this thesis was to assess how cell surface HS is potentially implicated in Aβ amyloidosis and the associated neuroinflammation of AD. In AD brain we determined that HS predominantly accumulated in Aβ deposits with dense cores and found glial-expressed HSPGs within these deposits. Aβ elevated HSPG levels in primary glial cultures, implicating activated glia as one source of the Aβ-associated HS. Next, we determined that microglial HSPGs are critical for the upregulation of interleukin-1β and tumor necrosis factor-α following exposure to lipopolysaccharide, an established inflammatory insult. Together these results raise the possibility that Aβ-induced expression of microglial HSPGs may promote neuroinflammation. Multiple mechanisms of Aβ toxicity have been proposed and different Aβ assemblies exert their toxicity through alternative routes. We found that three different preparations of Aβ aggregates all exhibited HS-dependent cytotoxicity, which in part correlated with Aβ internalization. Furthermore, heparin treatment attenuated Aβ cytotoxicity and uptake. In Aβ-positive AD microvasculature, HS deposited with Apolipoprotein E (ApoE) and its receptor, the low density lipoprotein receptor-related protein 1 (LRP1). In cell culture, HS and LRP1 co-operated in Aβ interactions and the addition of ApoE increased the levels of cell-associated Aβ in a HS- and LRP1-dependent manner. This ApoE-mediated increase in cell-associated Aβ may promote toxicity and vascular degeneration, but equally HS-mediated internalization of Aβ could represent a clearance route across the blood-brain-barrier. The findings presented here illustrate multiple roles for cell-surface HSPGs in interactions relevant to the pathogenesis of AD.
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The Effects of <em>L</em>-Cysteine on Alzheimer's Disease Pathology in <em>APOE2</em>, <em>APOE3</em>, and <em>APOE4</em> Homozygous MiceCieslak, Stephen Gerard 01 December 2016 (has links)
The APOE gene is of profound importance regarding the onset of Alzheimer's disease (AD). From the small physical differences among the protein products of the isoforms of this gene arises a profound difference in their physiologies. For example, the APOE2 isoform confers resistance to AD, the APOE3 isoform confers neutral susceptibility to AD, and the APOE4 isoform confers proneness to AD. L-cysteine is an amino acid that has several anti-AD properties, among which are its ability to sequester iron and form glutathione – a powerful antioxidant – and therefore may be a promising potential dietary supplement for ameliorating AD pathology. In our experiment, we fed Mus musculus (mice) homozygous for APOE2, APOE3, and APOE4 either a control diet or a diet high in L-cysteine. Using Western blotting analysis, we quantified Amyloid β (Aβ), hyper-phosphorylated Tau (HP-Tau), and the three APOE proteins that we extracted from post-mortem brains of APOE2, APOE3, and APOE4 homozygous mice of 3-, 6-, 9-, and 12-month ages. We calculated a three-way ANOVA on a sample of 86 mice to examine the effect of age, genotype, and diet on protein quantities. We found that administration of L-cysteine trends towards lowering levels of Aβ in each cohort, but this effect is statistically insignificant. On the other hand, L-cysteine caused a significant decrease in APOE production with regard to diet [F(1,62) = 6.17, p=0.02], indicating that less APOE is produced due to the decrease in Aβ burden. Furthermore, administration of L-cysteine revealed no significant impact on or trends regarding HP-Tau deposition between diet types for each cohort. However, we observed that L-cysteine appeared to nullify the increasing trend in HP-Tau deposition between APOE2 and APOE4 cohorts. Thus, L-cysteine may be weakly affecting HP-Tau deposition via its ability to somewhat reduce Aβ burden and consequently prevent the shutdown of the proteosomes responsible for the degradation and clearance of HP-Tau. Taken together, these data suggest that L-cysteine should be considered as an intervention for AD pathology.
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Olfactory performance and neuropathology in the Tg6799 strain of Alzheimer’s disease model miceÖsterman, Hanna January 2010 (has links)
The present study evaluated olfactory and cognitive abilities of the Tg6799 (also called 5xFAD) strain of Alzheimer’s disease (AD) model mice of two different age groups (2-3 and 8-10 months of age), and one group of healthy control mice (9-10 months). Employment of an operant conditioning paradigm using an automated olfactometer, an olfactory habituation/dishabituation test and a spatial learning test with non olfactory cues resulted in data showing that the 5xFAD mice develop olfactory impairments already at 2-3 months of age. The impairments consisted in a robust impairment in olfactory sensitivity, decreased responsiveness to novel odors and an inability to discriminate between enantiomeric odor molecules in the 5xFAD mice compared to control mice. Spatial learning deficits were also detected at this age, suggesting that cognitive functions were also affected. No differences in magnitude of the olfactory or spatial learning impairments could be detected between the age groups of model mice tested. Histological examination of development and presence of amyloid β (Aβ) plaques in the brains showed that plaques develop mainly between the ages of 3 and 8 months. This indicates that soluble Aβ rather than the formation of plaques might be responsible for the olfactory impairment and spatial learning impairments found. By 10 months of age plaque load of the 5xFAD mice was massive. The results of the present study clearly show that the 5xFAD strain might be suitable for research on human AD with regard to the early onset of olfactory impairments.
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Applications of Focused Ultrasound for Reducing Amyloid-β in a Mouse Model of Alzheimer's DiseaseJordao, Jessica F. 10 January 2014 (has links)
Focused ultrasound (FUS) can temporarily increase blood-brain barrier (BBB) permeability and locally deliver therapeutic agents to the brain. To date, applications of FUS for treatment of Alzheimer’s disease (AD) have not been explored. Here, I propose that FUS can facilitate a rapid reduction in amyloid-β peptide (Aβ) pathology in a mouse model of AD.
Firstly, FUS was used to enhance delivery of an antibody directed against Aβ, which aggregates and forms extracellular plaques. FUS mediated the delivery of antibodies to the targeted right cortex by 4 hours post-treatment and antibodies remained bound to Aβ plaques for 4 days. At 4 days post-treatment, stereological quantification of plaque burden demonstrated a significant reduction of 23%. Secondly, FUS treatment alone resulted in a significant reduction in plaque load (13%). I then investigated effects of FUS that may contribute to Aβ plaque reduction, specifically the delivery of endogenous antibodies to the brain and, activation of microglia and astrocytes.
Endogenous immunoglobulin was found bound to plaques within the treated cortex at 4 days post-FUS. Western blot analysis confirmed that immunoglobulin levels were increased significantly. Further, FUS led to a time-dependent increase in glial response. The expression of ionized calcium-binding adaptor molecule 1, a marker of phagocytic microglia, was increased at 4 hours and 4 days, and it was resolved by 15 days. Astrocytes had a slightly delayed response, with an increase in the expression of glial fibrillary acidic protein at 4 days, which declined by 15 days. After 4 days, microglia and astrocytes had significantly greater volumes and surface areas, signifying enhanced activation in the FUS-treated cortex, without an apparent increase in cell count. Co-localization of Aβ within activated glia revealed a significant increase in Aβ internalization following FUS.
In conclusion, it was demonstrated that the delivery of exogenous antibodies by FUS, and FUS alone can lead to plaque reduction. Mechanisms by which FUS alone reduces plaque load may include entry of endogenous antibodies to the brain and the induction of a transient glial response. This work details acute effects of FUS that highlight the promise of this delivery method for AD treatment.
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