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Cellular mechanisms for islet amyloid formation and degradationBadman, Michael Keith January 1995 (has links)
No description available.
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Fluorinated Peptidomimetics : Synthesis, Conformational Studies and Evaluation as Amyloid Proteins Aggregation Modulators / eptidomimétiques Fluorés : synthèse, études conformationnelles et évaluation comme modulateurs de l'agrégation de protéines amyloïdesXu, Yaochun 12 December 2016 (has links)
La maladie d'Alzheimer représente un défi mondial pour la société. Il n'y a pas à ce jour de traitement efficace pour traiter ou ralentir les symptômes de la maladie d'Alzheimer. Cette maladie est caractérisée par une perte de synapses, une augmentation du nombre de plaques extracellulaires d'Abêta et une augmentation de Tau hyperphosphorylée agrégée intracellulaire (neurodégénérescence fibrillaire). Il est communément admis que la maladie d'Alzheimer est principalement liée à l’oligomérisation et à la fibrillation de peptides amyloïdes bêta, et que les oligomères Abêta solubles et les fibres sont des espèces neurotoxiques. Une stratégie pour réduire la présence de ces espèces toxiques de Abêta est l'utilisation de peptides ou de peptidomimétiques pour inhiber l'agrégation de Abêta, soit par interaction avec les oligomères d'Abêta pour empêcher davantage son agrégation en fibres ou en stabilisant les conformations hélicoïdales transitoires de Abêta pour empêcher sa transition vers des structures en feuillets bêta. Dans un premier temps, sur la base des résultats encourageants de glycopeptides contenant un élément polaire casseur de feuillets bêta pour moduler l'agrégation du peptide Abêta, et des propriétés uniques du groupe trifluoromethylhydroxyle, nous avons conçu et synthétisé des mimes de pentapeptides contenant la séquence (Boc) Ala-Val-X-Val-Leu-OMe (X = Ser, Thr, (2S, 3R)-CF3 Thr et (2S, 3S)-CF3 Thr), pour interagir avec le site de nucléation du peptide Abêta dans sa forme monomérique ou oligomérique de manière à perturber l'auto-assemblage en oligomères toxiques. Des études conformationnelles par RMN 2D et par modélisation moléculaire ont indiqué que ces peptides adoptent des conformations étendues dans des solvants polaires (eau et méthanol). Nous avons constaté expérimentalement et théoriquement que les pentapeptides contenant l’acide aminé non naturel (2S, 3S)-CF3-thréonine sont plus étendus que les pentapeptides contenant les acides aminés naturels L-sérine et L-thréonine. Nous avons également observé que les pentapeptides (2S, 3S)-CF3-Thr ont une propension à s’auto-associer en formant des brins bêta intermoléculaires. La capacité de ces pentapeptides à inhiber la formation de fibres amyloïdes a été évaluée sur les peptides Abêta 1-42 et IAPP (impliqué dans le diabète de type II) par des essais de fluorescence à la thioflavine T (ThT). Il a été constaté qu'aucun de ces pentapeptides ont un effet d'inhibition de l'agrégation des peptides Abêta 1-42 et IAPP. Au contraire, certains composés ont montré un effet d'accélération de l'agrégation de IAPP. Accélérer l'agrégation est moins intuitif mais cette stratégie a plus récemment suscité un intérêt. Il pourrait être intéressant d'étudier plus en détail l’intérêt de cette accélération de l'agrégation de IAPP par des techniques complémentaires.Dans une deuxième partie de cette thèse, nous avons assemblé une unité amino acide basée sur un motif CF3-1,4 disubstituted-1,2,3-triazole en homo-oligomères (trimères et tétramères) et en peptidomimétiques. Des études conformationnelles de ces oligomères fluorés ont été menées par RMN 2D et par des simulations de modélisation moléculaire. Nos études préliminaires de modélisation moléculaire prévoient des structures hélicoïdales avec des trimères et des tétramères d'acides aminés à base de ces CF3-triazoles. L'analyse par RMN 2D du tétramère affiche des corrélations NOE très intéressantes, ce qui indique une structure repliée. La capacité de ces oligomères fluorés à moduler la formation de fibres amyloïdes des peptides Abêta 1-42 et IAPP a été évaluée par test de fluorescence à la ThT. Nous avons constaté que le trimère est un faible inhibiteur de l'agrégation de Abêta 1-42, mais aussi un promoteur d'agrégation de IAPP. Le tétramère a été trouvé capable de moduler l'agrégation de Abêta 1-42 et de IAPP, mais non d'une manière classique d'inhibition ou de promotion. / It has been widely recognized that Alzheimer’s disease (AD) represents an unsettling, worldwide challenge for society. By far, there has been no effective cure for AD. Pathologically, AD is characterized by a loss of synapses, an increase in the number of extracellular Abeta plaques and an increase in intracellular aggregated hyperphosphorylated Tau (neurofibrillary tangles). It is commonly believed that AD is primarily linked to oligomerization and fibrillization of amyloid beta peptides, and the soluble Abeta oligomers and fibrils are neurotoxic species.One strategy to reduce the Abeta fibrils is the use of peptides or peptidomimetics to inhibit the Abeta aggregation either by interaction with the Abeta oligomers to prevent its further aggregation into fibrils, or by stabilizing the transient Abeta α-helical conformations to prevent its transition to beta-sheet structures.In the first direction, based on the encouraging results of the glycopeptides containing the polar sugar beta-sheet breaker element to modulate Abeta peptide aggregation and the unique properties of trifluoromethylhydroxyl group, we designed and synthesized pentapeptide mimics with the sequence (Boc) Ala-Val-X-Val-Leu-OMe (X = Ser, Thr, (2S, 3R)-CF3-Thr and (2S, 3S)-CF3-Thr) to interact with the nucleation site of Abeta peptide in its monomeric or oligomeric form so as to disrupt the self-assembly into toxic oligomeric form. Both 2D NMR and molecular modelling studies indicated that these peptides in polar solvent (water and methanol) adopt mainly extended backbone conformations. It is found both experimentally and theoretically that, the (2S, 3S)-CF3-threonine-containing pentapeptides are more extended than the L-serine- and L- threonine-containing pentapeptides. It is also observed that the (2S, 3S)-CF3-Thr pentapeptides have a propensity to self-associate of by forming intermolecular beta-strand contacts. The ability of these pentapeptides to inhibit amyloid fibril formation was evaluated on Abeta1-42 and IAPP peptides by ThT fluorescence assay. It was found that none of these pentapeptides have any inhibition effect in Abeta1-42 peptide and IAPP aggregation. On the contrary, some compounds showed an acceleration effect in IAPP aggregation. Accelerating the aggregation pathways is less intuitive but this strategy has more recently aroused interest. It could be interesting to further study the effect of accelerating IAPP aggregation by complementary techniques.In the other direction, we have assembled novel a CF3-1,4-triazole-based amino acid mimic into homo-oligomers (trimer and tetramer) and peptidomimetics. The fluorinated oligomers were investigated both by NMR conformational studies and molecular modelling simulations. Our preliminary modelling studies predict helical structures with trimer and tetramers of CF3-1,4-disubstituted- 1,2,3- triazole-based amino acid. NMR analysis of tetramer displayed very interesting NOE correlations, indicating a folded structure. The ability of these fluorinated oligomers to modulate the amyloid fibril formation of Abeta1-42 and IAPP peptides were evaluated by ThT fluorescence assay. It was found that trimer was a weak inhibitor of Abeta1-42 aggregation but also a promoter of IAPP aggregation. The tetramer was found able to modulate the aggregation of Abeta1-42 and IAPP but not in a classical inhibition or promotion manner.
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Snabb och säker roaming i WLAN / Fast and Secure Roaming in WLANFalk, Magnus January 2004 (has links)
<p>This thesis investigates how Ericsson AB should do to achieve fast and secure handover when roaming in a WLAN. It also provides a security analysis of the system that the wireless access point is part of. The reason for this is that Ericsson is selling an access point called the ABS 2200 aimed at the public hotspot market. </p><p>The premise was that they wanted a standardized way of handling the roaming issue. At the outset the 802.11F standard looked like a good alternative (in fact the only standardized alternative). Towards last stages of the work though, it was discovered that the 802.11F standard is no longer supported by IEEE. </p><p>Despite this fact, the conclusion is that secure and fast roaming can be attained if 802.11F is combined with the security standard 802.11i. </p><p>The security analysis concludes that Denial Of Service is a major threat to WLAN hotspots. It also points out the link between the access point and authentication server is the weakest link in the system. The recommendation is that this link receives an additional layer of protection through IPsec withESP. The algorithm recommendations for ESP are AES for confidentiality and SHA-1 for integrity. </p><p>This thesis can also be used as a primer on security in WLAN and contains an extensive glossary making it useful as a reference when reading 802.11 standards.</p>
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Islet amyloid polypeptide (IAPP) in Type 2 diabetes and Alzheimer diseaseOskarsson, Marie January 2015 (has links)
The misfolding and aggregation of the beta cell hormone islet amyloid polypeptide (IAPP) into amyloid fibrils is the main pathological finding in islets of Langerhans in type 2 diabetes. Pathological assemblies of IAPP are cytotoxic and believed to contribute to the loss of insulin-producing beta cells. Changes in the microenvironment that could trigger the aggregation of IAPP are largely unknown. So is the possibility that islet amyloid can spread within or between tissues. The present thesis have explored the roles of glycosaminoglycan heparan sulfate (HS) and the novel anti-amyloid chaperone Bri2 BRICHOS domain in the assembly of IAPP amyloid and cytotoxic IAPP aggregates. Furthermore, cross-seeding as a molecular interaction between the observed connection of type 2 diabetes and Alzheimer disease has been examined. The N-terminal region of IAPP was required for binding to HS structures and induction of binding promoted amyloid formation. Interference in the HS-IAPP interaction by heparanase degradation of HS or by introducing short, soluble HS-structure fragments reduced amyloid deposition in cultured islets. Cytotoxicity induced by extracellular, aggregating IAPP was mediated via interactions with cell-surface HS. This suggests that HS plays an important role in islet amyloid deposition and associated toxicity. BRICHOS domain containing protein Bri2 was highly expressed in human beta cells and colocalized with IAPP intracellularly and in islet amyloid deposits. The BRICHOS domain effectively attenuated both IAPP amyloid formation and IAPP-induced cytotoxicity. These results propose Bri2 BRICHOS as a novel chaperone preventing IAPP aggregation in beta cells. The intravenous injection of IAPP, proIAPP or amyloid-β (Aβ) fibrils enhanced islet amyloidosis in transgenic human IAPP mice, demonstrating that both homologous- and heterologous seeding of islet amyloid can occur in vivo. IAPP colocalized with Aβ in brain amyloid from AD patients, and AD patients diagnosed with T2D displayed increased proportions of neuritic plaques, the more pathogenic plaque subtype. In conclusion, both IAPP amyloid formation and the cytotoxic effects of IAPP is dependent on interactions with HS whereas interactions with Bri2 BRICHOS is protective. Cross-seeding between Aβ and IAPP can occur in vivo and the two peptides colocalize in brain amyloid in AD patients.
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The role of amylin in Alzheimer's diseaseAllsop, Ben January 2017 (has links)
Type II diabetes mellitus (T2D) and Alzheimer's disease (AD) share aetiology and have a high incidence of co-morbidity. Evidence suggests that both diseases are caused by the pathogenic aggregation of an intrinsically disordered native amyloid peptide. Furthermore, T2D and AD share risk factors such as age, obesity and vascular health. Recent studies demonstrate that amylin, an amyloidogenic pancreatic hormone deposited in the pancreas in T2D, is also deposited in the brain in AD. We hypothesised that amylin directly contributes to AD through deposition in the brain and activation of pathogenic signalling cascades. We provide evidence to validate that amylin is deposited in the brain parenchyma and vasculature. Furthermore, we present data demonstrating amylin (IAPP) expression in the brain is significantly elevated in AD; and that amylin treatment increases amyloid-beta (AB) secretion in neuronal culture. Soluble oligomeric species of AB cause AD by initiation of downstream signalling cascades that dysregulate kinase activity, promote tau phosphorylation and result in neuronal death. One such pathway involves AB oligomer activation of the Src-family kinase Fyn, through binding to the cellular prion protein (PrPC) receptor complex. We provide evidence that amylin activates Fyn in neuroblastoma and stem cell derived neurons, this activation is possibly mediated through PrPC. Together the data presented in this thesis demonstrate multiple modes of action whereby amylin may directly propagate or indirectly exacerbate AD-associated processes. Amylin aggregation, deposition, up-regulation and signalling should be considered one of several links between T2D and AD. The pathogenic actions of AB and amylin are mediated by oligomer species. Therefore therapeutics which prevent oligomerisation or oligomer action may be valuable in AD and T2D. One such class of therapeutic are flavonoids. Our collaborators have recently demonstrated the flavonoids rutin and quercetin reduce amylin aggregation and extend lifespan in diabetic animal models. As a result of this we investigated the anti-amyloidogenic and anti-oligomeric properties of the flavonoid quercetin against AB. Quercetin treatment prevented AB oligomerisation, cell binding of pre-formed AB oligomers and also reduced APP processing in cell models. These data suggest quercetin is a multimodal therapeutic with potential utility in AD and T2D and should be explored for further drug development.
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Automation of a long-term measurement of organic solar cells / Automatisering av en långtidsmätning av organiska solcellerFjodorov, Anton January 2011 (has links)
Organic solar cells represent a clean and renewable source of energy. They are cheaper and handier than conventional silicon solar cells, but have lower efficiency and shorter lifetime. This project was conducted to assist a two years' outdoor study on the lifetime of organic solarcells, in order to better understand the lifetime-affecting factors. An outdoor stand for the solar cells was designed, a partly working Python program for automatic measurement control was made and a stable link between all hardware parts in the setup was established. / Organiska solceller representerar en ren och förnybar energikälla. De är billigare och behändigare än konventionella kiselsolceller, men har lägre verkningsgrad och kortare livslängd. Detta projekt utfördes för att assistera en tvåårig utomhusstudie om organiska solcellers livslängd i syfte att bättre förstå de faktorer som påverkar livslängden. Ett utomhusställ designades för solcellerna, ett delvis fungerande Pythonprogram gjordes för automatisk kontroll av mätningen och en stabil länk upprättades mellan samtliga hårdvarudelar i uppställningen.
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Early events in the onset of type II diabetes : effects of aggregated amylin (IAPP) on the islet proteome and metabolic pathwaysMiraee-Nedjad, Samaneh January 2013 (has links)
Many diseases are caused by proteins or peptides folding incorrectly and aggregating into fibrils or plaques, including Alzheimer’s disease, Parkinson's disease and type II diabetes. Amyloid formation in the human pancreas occurs via the aggregation of a 37 amino acid peptide called amylin or IAPP which is shown to be toxic to pancreatic β cells. Amylin (IAPP) aggregation initiates a large number of events, leading ultimately to cell death. However the exact cytotoxic action of human IAPP and also the underlying molecular events leading from amylin (IAPP) aggregation to β cell death is still unknown. The toxic effect of human amylin (IAPP) is thought to involve changes in the expression of several genes and proteins. Further transcriptional and proteomics studies in this field can therefore facilitate the identifications of new targets whose expression are affected by amylin (IAPP). These information could be further used to construct an integrated model of the signalling and regulatory pathways through which amylin (IAPP) interacts with cellular metabolism.To investigate the effects of amylin (IAPP) aggregation on the islets proteome in this study, rat Rin-5F cell line, reported as a model of pancreatic β cell, was used. MTT assay was initially performed to determine the effect of IAPP on the cell viability at different time points. The isolated proteins form the untreated and IAPP treated Rin-5F cells were then fractionated by off gel electrophoresis and analysed by quantitative label free LC- MS/MS approach.Label free quantification of IAPP treated Rin-5F cells has identified the altered expression of many proteins, some of which were previously suggested in the literature to be involved in the pathogenesis of type 2 diabetes. These proteins were map to several pathways (including glycolysis and proteasome) whose expressions were significantly affected upon amylin (IAPP) exposure. The IAPP responsive proteins were also structured into a well connected network. Some of the hub proteins identified in this network were greatly affected as the result of IAPP treatments of RIN-5F cells. Our data therefore revealed the effect of IAPP on several proteins and pathways that might be important in the pathogenesis of type 2 diabetes.
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Modeling of beta-cell Metabolic Activity and Islet Function : a Systems Approach to Type II Diabetes / Modellering av beta-cellers metaboliska aktivitet och Langerhans öars funktion : ett systemtänkande för typ II diabetesChristakopoulos, Fotios January 2016 (has links)
Diabetes has gained growing attendance as one of the key non communicable diseases (NCD) with the World Health Organization identifying it as the focus of the World Health Day 2016. It is reported that more than 420 million people suffer from diabetes, a number predicted to rise in the coming years. This report forms part of a broader, long term focus project that aims to establish a systems approach to type 2 diabetes (T2D), the variant that accounts for more than 90% of reported diabetes cases. The broader project objectives are to identify possible biomarkers for the onset and the progression of T2D as a precursor to enable potential future approaches to delay onset, or even reverse disease states, via active bio-compounds and/or establishment of beneficial nutritional patterns. The 6-month master’s work reported here is sub-project that focused specifically on cell level vesicle trafficking processes. These processes are believed to be crucial in understanding the formation amyloid plaques, which compromise or kill the insulin secreting beta cells. Up until now, there has been a lack of appropriate experimental techniques to directly observe this process in live cells. Hence we have developed 2 new techniques: (i) a method of imaging the actin and tubulin network reorganization during exocytosis of the insulin containing granules while exploring novel ways of characterizing the network. (ii) a method of imaging the granules themselves and using particle tracking microrheology to analyze their movement patterns during stimulation with glucose. These new techniques open the door to follow up experiments which would allow development of a cell scale mathematical model or simulation correlating short term glucose dynamics to risk of amyloid plaque formation and T2D.
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Insights into Mechanisms of Amyloid Toxicity: Molecular Dynamics Simulations of the Amyloid andbeta-peptide (Aandbeta) and Islet Amyloid Polypeptide (IAPP)Brown, Anne M. 07 April 2016 (has links)
Aggregation of proteins into amyloid deposits is a common feature among dozens of diseases. Two such diseases that feature amyloid deposits are Alzheimer's disease (AD) and type 2 diabetes (T2D). AD toxicity has been associated with the aggregation and accumulation of the amyloid β-peptide (Aβ); Aβ exerts its toxic effects through interactions with neuronal cell membranes. A characteristic feature of T2D is the deposition of the islet amyloid polypeptide (IAPP) in the pancreatic islets of Langerhans. It is currently unknown if IAPP aggregation is a cause or consequence of T2D, but it does lead to β-cell dysfunction and death, exacerbating the effects of diabetes. Characterizing the fundamental interactions between both Aβ and IAPP with lipid membranes and in solution will give greater insight into mechanisms of toxicity exhibited by amyloid proteins. In this work, molecular dynamics (MD) simulations were used to study the secondary, tertiary, and quatnary structure of Aβ and IAPP, in addition to peptide-membrane interactions and membrane perturbation as independently caused by both peptides. Studies were conducted to address the following questions: (1) what influence do solution conditions and oxidation state have on monomeric Aβ] (2) how and in what way does monomeric Aβ interact with model lipid membranes and what role does sequence play on these peptide-membrane interactions; (3) can MD simulations be utilized to understand Aβ tetramer formation, rearrangement, and tetramer-membrane interactions; (4) how does IAP interact with model membranes and how does that vary from non-toxic (rat) IAPP peptide-membrane interactions. These studies led to conclusions that showed variance in lipid affinity and degree of perturbation as based on peptide sequence, in addition to insight into the type of perturbation caused to membranes by these amyloid peptides. Understanding the differences in peptide-membrane interactions of amyloidogenic and non-amyloidogenic (rat) peptides gave insight into the overall mechanism of amyloidogenicity, leading to the detection of specific amino acids essential in peptide-membrane perturbation. These residues can then be targeted for novel therapeutic design to attenuate the perturbation and potential cell death as caused by these peptides. / Ph. D.
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Snabb och säker roaming i WLAN / Fast and Secure Roaming in WLANFalk, Magnus January 2004 (has links)
This thesis investigates how Ericsson AB should do to achieve fast and secure handover when roaming in a WLAN. It also provides a security analysis of the system that the wireless access point is part of. The reason for this is that Ericsson is selling an access point called the ABS 2200 aimed at the public hotspot market. The premise was that they wanted a standardized way of handling the roaming issue. At the outset the 802.11F standard looked like a good alternative (in fact the only standardized alternative). Towards last stages of the work though, it was discovered that the 802.11F standard is no longer supported by IEEE. Despite this fact, the conclusion is that secure and fast roaming can be attained if 802.11F is combined with the security standard 802.11i. The security analysis concludes that Denial Of Service is a major threat to WLAN hotspots. It also points out the link between the access point and authentication server is the weakest link in the system. The recommendation is that this link receives an additional layer of protection through IPsec withESP. The algorithm recommendations for ESP are AES for confidentiality and SHA-1 for integrity. This thesis can also be used as a primer on security in WLAN and contains an extensive glossary making it useful as a reference when reading 802.11 standards.
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