Spelling suggestions: "subject:"angles""
21 |
Evaluation of Early Pathogenic Mechanisms of Synaptic Dysfunction in Alzheimer’s DiseaseShaw, Eisha January 2016 (has links) (PDF)
Alzheimer’s disease is a debilitating, progressive neurodegenerative disorder in the elderly, characterized by severe loss of memory and higher cognitive functions. In the hundred years since its discovery, Alzheimer’s disease (AD) has traversed from the status of a ‘rare neurological oddity’ to one of the greatest challenges faced by healthcare and medicine in this millennium. A reported 44 million people currently suffer from AD but only 1 in 4 people have been diagnosed. Although AD has been an area of intense research for almost 50 years now, most studies have focused on the end stage disease. Years of study on the pathological cause underlying AD; have conclusively shown that the accumulation of the sticky peptide, Aβ, is one of the major triggers of AD pathogenesis. However, after the initial Aβ trigger, multiple processes contribute to disease progression, so that by the time a patient is diagnosed on the basis of overt behavioral phenotypes, it is difficult to understand and differentiate between the causative mechanisms and the consequential effects of the disease. It is, perhaps, because of this, that we are still struggling to find therapies for AD which will stop or at the very least slow the course of the disease. In the 2015 report on AD, issued by the Alzheimer’s association, much emphasis has been placed on the early diagnosis of AD and the revision of the diagnostic criteria for AD. According to the new guidelines proposed in 2011, AD has been divided into three stages where the first stage occurs before the appearance of overt behavioral symptoms such as memory loss, whereas by the 1984 guidelines, cognitive disabilities must have already occurred for diagnoses of AD. This proposed preclinical stage of AD has been defined, reflecting the current belief that AD pathogenesis begins almost 20 years before the occurrence of behavioral dysfunction. However, no diagnostic criteria are currently available to establish this stage. Hence, there is a need to understand the early pathogenic mechanisms of AD, which will yield early therapeutic targets as well as early diagnostic markers of AD.
One of the earliest documented events in AD pathogenesis is synaptic dysfunction, which is later manifested as loss of dendritic spines. Deficits in long term potentiation (LTP) has been demonstrated in Aβ exposed hippocampal slices as well as in mouse models of AD, much before the appearance of pathological hallmarks such as plaques and tangles as well as overt behavioral phenotypes. While these and other studies indicate
clearly that elevated levels of soluble Aβ peptide leads to impairment of synaptic function, the underlying molecular mechanisms are yet to be elucidated. One of the purported mediators of Aβ induced dysfunction is oxidative stress. The Aβ peptide, especially the Aβ42, is a self aggregating peptide with a propensity to form peptidyl radicals. Interaction of the peptidyl radicals with biomolecules leads to the generation of more free radical species via cascading chain reactions. Additionally, Aβ peptide has also been demonstrated to have synaptotoxic effects via its effect on NMDA receptors and calcium influx leading to deregulated reactive oxygen species (ROS) production as well as excitotoxicity.
Hence, with a view to understanding Aβ mediated early synaptic dysfunction in AD, we studied early signaling changes in the synaptosomes derived from the cortex of APP/PS1 mice model of AD at various ages. The APP/PS1 model contains a mouse/human chimeric APP gene bearing the KM670/671NL Swedish mutation and the human PS1 gene with an exon 9 deletion. These mice exhibit behavioral deficits from 7 months of age while plaque deposition and gliosis become apparent by 9 months of age. We chose to study both pre-symptomatic ages (1 and 3 months old) as well as post symptomatic (9 months old) mice. Post nuclear supernatant (PNS) as well as synaptosomes were isolated from the cortex of APP/PS1 and age matched control mice. We assayed the levels of reactive oxygen species (ROS) in the PNS and the synaptosomes of post symptomatic 9 months old APP/PS1 mice and age matched controls. In contrast to reports of enhanced oxidative stress markers in the brains of AD patients, we did not find any increase in the levels of ROS in the PNS of post symptomatic APP/PS1 mice compared to age matched controls. However, synaptosomes from the cortex of these animals exhibited a significant increase in ROS levels in APP/PS1 mice compared to controls. We further found that there was significant increase in the ROS levels in synaptosomes, but not PNS, of very young asymptomatic 1 and 3 months old APP/PS1 mice. This is a first demonstration of synapse specific increase in oxidative stress in AD mice, as young as 1 month of age, indicating that disease specific mechanisms operate at the synapse much before the appearance of any overt cellular or behavioral symptoms. The increase in synaptic ROS levels correlated with a small but significant increase in the levels of Aβ42 in the brains of APP/PS1 mice compared to controls. We also found a concurrent change in the redox status of the cytoskeletal protein, actin, at the synapse. As early as 1 month of age, there was a significant decrease in the protein level of reduced actin indicating that there is an increase in the level of oxidized
actin at the synapse. This loss of reduced actin was specific to the fibrillar pool of actin while no significant change was observed in the redox status of the monomeric globular pool of actin. Oxidation of actin has been demonstrated to lead to its depolymerization. Concurrently, we found a significant loss of fibrillar actin in the synaptosomes of APP/PS1 mice. Actin is the major cytoskeletal protein at the synapse. Changes in the globular to fibrillar actin ratio at the synapse at early pre-symptomatic ages in APP/PS1 mice will likely lead to structural and consequent functional changes at the synapse. This could potentially be one of the triggers of synaptic dysfunction in AD.
Furthermore, changes in the Akt-mTOR signaling pathway was also observed in the synaptosomes of 1 month old APP/PS1 mice, which is sustained at 9 months. There was a significant loss of the mTOR-pS6K-4EBP1 axis in the synaptosomes, but not PNS, of APP/PS1 mice. We found that loss of Akt signaling, as evinced by loss of Akt phosphorylation, Akt kinase activity as well as loss of phosphorylation of downstream effector GSK3β, potentially underlies the loss of mTOR signaling. Further, the loss of Akt signaling is mediated by synapse specific redox modification of Akt and consequent interaction with the protein phosphatase PP2a. Loss of the Akt-mTOR signaling at the synapse is indicative of deficits in local protein translation. Loss of this essential synaptic function, which plays critical roles in synapse maintenance as well as synaptic plasticity during learning and memory, at an early age, will have long ranging impact on synaptic function such as long term potentiation (LTP) in APP/PS1 mice.
Our study is the first demonstration of oxidative stress and consequent signaling changes which occur specifically at the synapse of very young 1 month old APP/PS1 mice. These changes occur much before the appearance of overt phenotype such as plaque deposition and behavioral dysfunction but sustain till the appearance of classical pathological hallmarks. Hence, the study demonstrates that disease progression starts much before previously thought and provides us a critical time window during which therapeutic strategies designed to delay or stop these changes might change the course of AD.
|
22 |
siRNA knockdown of Tau kinases in primary neurons / siRNA-knockdown av Tau-kinaser i primärneuronGenfors, Björn January 2012 (has links)
No description available.
|
23 |
Neuropathological assessment of beta-amyloid and tau pathology in human focal cortical dysplasia with drug-resistant epilepsyAlisha S Aroor (11191332) 28 July 2021 (has links)
<div><b>Rationale:</b> Focal cortical dysplasia (FCD) is a neurodevelopmental disorder that is associated with abnormal cortical development and is one of the most common drug-resistant epilepsies. The mechanistic target of rapamycin (mTOR) pathway is a highly complex pathway </div><div>associated with cell proliferation, synaptic plasticity, neuroinflammation, and cortical development. Hyperactivation of this pathway has also been implicated in hyperexcitability, seizures, and accumulation of beta-amyloid (Aβ) plaques and neurofibrillary tangles (NFT) through hyperphosphorylation of tau. Interestingly, Aβ and hyperphosphorylated tau have been reported in both rodent models and human patients of temporal lobe epilepsy (TLE) and FCD however, the mechanisms through which this occurs are still yet to be defined. Therefore, to identify the possible link between Aβ and tau pathology in FCD, we determined the spatial distribution and protein levels of Aβ and phosphorylated tau (p-tau) along with mTOR signaling </div><div>molecules. We hypothesized that there would be presence of Aβ and tau pathology as well as an increase in Aβ and p-tau protein levels that would be correlated with hyperactivation of the mTOR and GSK3 signaling pathways in tissue biopsies from human FCD patients compared to brain tissues from non-epileptic (NE) individuals.</div><div><br></div><div><b>Methods:</b> Cortical brain samples surgically resected from patients with FCD were used and compared to NE samples surgically resected from glioblastoma patients with no history of seizures or epilepsy. Immunostaining was used to determine the distribution of phosphorylation of S6 (p-S6), a marker for mTOR activation, and NeuN, a marker for neurons, along with Aβ and p-tau. Additionally, western blotting (WB) was used to determine the levels of mTOR signaling through p-S6 and GSK3 (p-GSK) along with Aβ and p-tau.</div><div><br></div><div><b>Results:</b> We found cortical dyslamination, mTOR activation, p-tau, and Aβ accumulation in cortices of patients with FCD with drug-resistant epilepsy. However, we did not find a </div><div>significant difference in the protein levels of p-S6 (p = 0.422), p-GSK3 (p = 0.947), p-tau (p = 0.649), and Aβ (p = 0.852) in cortical tissue homogenates derived from FCD patients when compared to those of NE samples. Additionally, we did not find sex differences in the protein </div><div>levels of p-S6 (p = 0.401), p-GSK3 (p = 0.331), p-tau (p = 0.935), and Aβ (p = 0.526). There was no significant correlation between age and p-S6 (p = 0.920), age and p-GSK3 (p = 0.089), age and p-tau (p = 0.956), and age and Aβ (p = 0.889). Moreover, there was no significant correlation between mTOR activation (p-S6), Aβ (p = 0.586) and p-tau (p = 0.059) nor GSK3 activation (p-GSK3), Aβ (p = 0.326), and p-tau (p = 0.715). Lastly, there was no significant correlation within the mTOR and GSK3 pathway activation within the same patients (p = 0.602).</div><div><br></div><div><b>Conclusion:</b> These data suggest that mTOR hyperactivation occurs alongside the presence of Aβ and tau pathology. However, several unknown factors such as medical and medication history may be altering the expression or suppression of these proteins. Additionally, there may be alternative pathways that crosstalk with mTOR signaling therefore influencing Aβ and tau pathology in FCD patients with drug-resistant epilepsy. Further investigation will need to be conducted to understand the detailed mechanisms through which Aβ and tau pathology occur in </div><div>FCD.</div>
|
24 |
Efeitos do lítio sobre a expressão e atividade das enzimas fosfolipase A2 e glicogênio sintase quinase 3beta e sua relação com o estado de fosforilação da proteína tau / Effects of lithium on the expression of the enzymes activity phospholipase A2 and glycogen synthase kinase 3beta and its relationship with the phosphorylation state of tau proteinPaula, Vanessa de Jesus Rodrigues de 11 August 2015 (has links)
O presente estudo comparou o efeito do tratamento crônico com lítio em doses subterapêuticas (0,02mM e 0,2mM) e dose terapêutica (2mM) em cultura primária de neurônios corticais e hipocampais. As amostras foram analisadas e comparadas com o grupo controle (sem tratamento) tanto para os neurônios corticais, como para os neurônios hipocampais. O objetivo do estudo foi: 1) avaliar, nessas culturas celulares, a atividade de diferentes quinases (PKA, CaMKII, AKT e GSK3beta), diferentes sítio de fosforilação da Tau (Ser, 199, 205, 214, 396, C-terminal e seis isoformas), a partir da inibição da PLA2 pelo lítio; 2) Investigar as vias de sinalização envolvidas na modulação do estado de fosforilação da proteína tau a partir da inibição da PLA2 em culturas primárias de neurônios; 3) avaliar, simultaneamente, a expressão de fatores neurotróficos (BDNF) e citocinas (GM-CSF, IL-1b, IL-2, IL-4, IL-5, IL6, IL-10, IL-12, IFN-y e TNF-alfa) mediante o tratamento de neurônios primários com lítio e 4) avaliar expressão gênica por microarray das culturas tratadas com diferentes doses, subterapêuticas e terapêutica, de cloreto de lítio. Nossos resultados sugerem uma dissociação de efeitos em neurônios corticais dos observados em neurônios hipocampais. O lítio aumentou a atividade enzimática da iPLA2 e da cPLA2, tanto em neurônios corticais como em neurônios hipocampais. A atividade da GSK3beta foi inibida pelo tratamento crônico com lítio em neurônios hipocampais e apresentou efeito contrário em neurônios corticais. Observamos comportamentos diferentes das diferentes proteínas analisadas em culturas de neurônios corticais e hipocampais, e não tivemos significância estatística para as alterações na proteína tau. O tratamento nas doses subterapêuticas aumentou a secreção de citocinas pró-inflamatórias tanto em neurônios corticais quanto em neurônios hipocampais / The present study compared the effect of lithium chronic treatment with subtherapeutic doses (0.02mM and 0.2mM) and therapeutic dose (2mM) in primary cortical and hippocampal neurons cell culture. This samples were analyzed and compared with the control group (no treatment). The study\'s goal was: 1) to evaluate in these Cell Culture a different activity kinases (PKA, CaMKII, AKT and GSK3beta), different phosphorylation site of the Tau (199, 205, 214, 396, C-terminal and Six isoforms) and PLA2 inhibition; 2) To investigate how signaling pathways involved in modulation of tau phosphorylation from the inhibition of PLA2 in primary cultures of neurons; 3) analyze an expression of neurotrophic factors (BDNF) and cytokines (GM-CSF, IL-1b, IL-2, IL-4, IL-5, IL-6, IL-10, IL-12, IFNy TNFalfa 4) to evaluate gene expression via microarray with different doses of lithium treatment. Our results suggest a dissociation effects on cortical and hippocampal neurons cell culture. Lithium increased the enzyme activity of iPLA2 and cPLA2, in both cortical and hippocampal neurons. The GSK3beta the activity was inhibited by chronic treatment with lithium in hippocampal neurons and presented contrary effect on cortical neurons. We observe not statistics significance on tau protein. The treatment at subtherapeutic and therapeutic doses increased the secretion of pro and anti-inflammatory cytokines both in cortical and hippocampal neurons
|
25 |
On a Heegaard Floer theory for tanglesZibrowius, C. B. January 2017 (has links)
The purpose of this thesis is to define a “local” version of Ozsváth and Szabó’s Heegaard Floer homology HFL^ for links in the 3-sphere, i.e. a Heegaard Floer homology HFT^ for tangles in the 3-ball. The decategorification of HFL^ is the classical Alexander polynomial for links; likewise, the decategorification of HFT^ gives a local version ∇ˢ of the Alexander polynomial. In the first chapter of this thesis, we give a purely combinatorial definition of this polynomial invariant ∇ˢ via Kauffman states and Alexander codes and investigate some of its properties. As an application, we show that the multivariate Alexander polynomial is mutation invariant. In the second chapter, we define HFT^ in two slightly different, but equivalent ways: One is via Juhász’s sutured Floer homology, the other by imitating the construction of HFL^. We then state a glueing theorem in terms of Zarev’s bordered sutured Floer homology, which endows HFT^ with additional structure. As an application, we show that any two links related by mutation about a (2,−3)-pretzel tangle have the same δ-graded link Floer homology. This result relies on a computer calculation. In the third and last chapter, we specialise to 4-ended tangles. In this case, we give a reformulation of HFT^ with a glueing structure in terms of (what we call) peculiar modules. Together with a glueing theorem, we can easily recover oriented and unoriented skein relations for HFL^. Our peculiar modules also enjoy some symmetry relations, which support a conjecture about δ-graded mutation invariance of HFL^. However, stronger symmetries would be needed to actually prove this conjecture. Finally, we explore the relationship between peculiar modules and twisted complexes in the wrapped Fukaya category of the 4-punctured sphere. There are four appendices, some of which might be of independent interest: In the first appendix, we describe a general construction of dg categories which unifies all algebraic structures used in this thesis, in particular type A and type D modules from bordered theory. In the second appendix, we prove a generalised version of Kauffman’s clock theorem, which plays a major role for our decategorified invariants. The last two appendices are manuals for two Mathematica programs. The first is a tool for computing the generators of HFT^ and the decategorified tangle invariant ∇ˢ. The second allows us to compute bordered sutured Floer homology using nice diagrams.
|
26 |
Efeitos do lítio sobre a expressão e atividade das enzimas fosfolipase A2 e glicogênio sintase quinase 3beta e sua relação com o estado de fosforilação da proteína tau / Effects of lithium on the expression of the enzymes activity phospholipase A2 and glycogen synthase kinase 3beta and its relationship with the phosphorylation state of tau proteinVanessa de Jesus Rodrigues de Paula 11 August 2015 (has links)
O presente estudo comparou o efeito do tratamento crônico com lítio em doses subterapêuticas (0,02mM e 0,2mM) e dose terapêutica (2mM) em cultura primária de neurônios corticais e hipocampais. As amostras foram analisadas e comparadas com o grupo controle (sem tratamento) tanto para os neurônios corticais, como para os neurônios hipocampais. O objetivo do estudo foi: 1) avaliar, nessas culturas celulares, a atividade de diferentes quinases (PKA, CaMKII, AKT e GSK3beta), diferentes sítio de fosforilação da Tau (Ser, 199, 205, 214, 396, C-terminal e seis isoformas), a partir da inibição da PLA2 pelo lítio; 2) Investigar as vias de sinalização envolvidas na modulação do estado de fosforilação da proteína tau a partir da inibição da PLA2 em culturas primárias de neurônios; 3) avaliar, simultaneamente, a expressão de fatores neurotróficos (BDNF) e citocinas (GM-CSF, IL-1b, IL-2, IL-4, IL-5, IL6, IL-10, IL-12, IFN-y e TNF-alfa) mediante o tratamento de neurônios primários com lítio e 4) avaliar expressão gênica por microarray das culturas tratadas com diferentes doses, subterapêuticas e terapêutica, de cloreto de lítio. Nossos resultados sugerem uma dissociação de efeitos em neurônios corticais dos observados em neurônios hipocampais. O lítio aumentou a atividade enzimática da iPLA2 e da cPLA2, tanto em neurônios corticais como em neurônios hipocampais. A atividade da GSK3beta foi inibida pelo tratamento crônico com lítio em neurônios hipocampais e apresentou efeito contrário em neurônios corticais. Observamos comportamentos diferentes das diferentes proteínas analisadas em culturas de neurônios corticais e hipocampais, e não tivemos significância estatística para as alterações na proteína tau. O tratamento nas doses subterapêuticas aumentou a secreção de citocinas pró-inflamatórias tanto em neurônios corticais quanto em neurônios hipocampais / The present study compared the effect of lithium chronic treatment with subtherapeutic doses (0.02mM and 0.2mM) and therapeutic dose (2mM) in primary cortical and hippocampal neurons cell culture. This samples were analyzed and compared with the control group (no treatment). The study\'s goal was: 1) to evaluate in these Cell Culture a different activity kinases (PKA, CaMKII, AKT and GSK3beta), different phosphorylation site of the Tau (199, 205, 214, 396, C-terminal and Six isoforms) and PLA2 inhibition; 2) To investigate how signaling pathways involved in modulation of tau phosphorylation from the inhibition of PLA2 in primary cultures of neurons; 3) analyze an expression of neurotrophic factors (BDNF) and cytokines (GM-CSF, IL-1b, IL-2, IL-4, IL-5, IL-6, IL-10, IL-12, IFNy TNFalfa 4) to evaluate gene expression via microarray with different doses of lithium treatment. Our results suggest a dissociation effects on cortical and hippocampal neurons cell culture. Lithium increased the enzyme activity of iPLA2 and cPLA2, in both cortical and hippocampal neurons. The GSK3beta the activity was inhibited by chronic treatment with lithium in hippocampal neurons and presented contrary effect on cortical neurons. We observe not statistics significance on tau protein. The treatment at subtherapeutic and therapeutic doses increased the secretion of pro and anti-inflammatory cytokines both in cortical and hippocampal neurons
|
27 |
A category of pseudo-tangles with classifying space Ω∞ S∞ and applications / Eine Kategorie aus Pseudo-Verschlingungen mit klassifizierendem Raum Ω∞ S∞ und AnwendungenBlömer, Olaf 08 September 2000 (has links)
It is well known that the group completion of the classifying space of the free permutative category is Ω∞ S∞, i.e. stable homotopy of the 0-sphere. Quillen´s S-1S construction can be applied to the free permutative category, which has a pictorial description by pseudo-tangles, and this leads to another pictorial descripted category G which has the classifying space Ω∞ S∞. With help of this model G we can give generators for the homotopy groups of Ω∞ S∞ for i=0,1,2. As a further application, we compute the fundamental group of the free permutative category with duality and show that the association of a duality structure on the categorial level does not lead to a group completion on the level of classifying spaces.
|
28 |
Alzheimer's disease pathology in aged chimpanzeesEdler, Melissa K. 26 July 2016 (has links)
No description available.
|
29 |
Intégrale de Kontsevich elliptique et enchevêtrements en genre supérieur / Elliptic Kontsevich integral, and higher genus tanglesHumbert, Philippe 11 December 2012 (has links)
Dans cette thèse, on définit un invariant fonctoriel d'enchevêtrements dans le tore épaissi qui généralise l'intégrale de Kontsevich. Cet invariant est tout d'abord construit analytiquement à partir d'une version universelle de la connexion de Knizhnik-Zamolodchikov-Bernard elliptique. On donne ensuite une version combinatoire de sa construction, basée sur la notion d' « associateur elliptique » introduite par Enriquez. L'outil principal de cette dernière construction est un théorème qui caractérise la catégorie des enchevêtrements en genre quelconque par une propriété universelle exprimée dans le langage des catégories tensorielles. / We construct a functorial invariant of tangles embedded in the thickened torus. This invariant generalizes the Kontsevich integral, and can be analytically derivated from a universal version of the elliptic Knizhnik-Zamolodchikov-Bernard equation. The main part of the thesis is devoted to the combinatorial version of its construction, using the notion of « elliptic associator » introduced by Enriquez. A key ingredient is a universal property satisfied by the category of framed tangles in the torus. This universal property is established in the language of monoidal categories, and extends Reshetikhin-Turaev-Shum's coherence theorem to the case of framed tangles in any closed genus g surface.
|
30 |
Etudes biologiques de nouveaux radiotraceurs pour l'imagerie moléculaire de la maladie d'Alzheimer / Biological studies of new radiotracers for molecular imaging of Alzheimer's diseaseGarin, Dominique 26 January 2012 (has links)
La maladie d'Alzheimer (MA) est une pathologie neurodégénérative s'exprimant par des troubles de la mémoire et un déclin cognitif évoluant progressivement vers un stade de démence incurable. Elle représente la cause principale de syndrome démentiel puisque l'on estime qu'elle est à l'origine de plus de 70% des cas de démences. Du fait de sa prévalence élevée après 60 ans, la MA représente un problème majeur de santé publique. La MA se caractérise par la présence de deux types de lésions cérébrales : les dégénérescences neurofibrillaires (DNF) et les plaques amyloïdes. Cependant, aucun consensus clair ne se dégage concernant les relations qui lient les deux types de lésions. Leur présence ne peut être mise en évidence que par un examen post-mortem. La MA est par définition une pathologie évolutive, cet examen ne permet donc pas de caractériser de manière adéquate les processus dynamiques qui sous-tendent cette pathologie. La mise au point de techniques d'imagerie non invasives permettant de réaliser un suivi longitudinal in vivo de ces lésions s'avère déterminante dans la compréhension de la physiopathologie de la MA. Les travaux effectués au cours de cette thèse ont pour objectif la mise au point de nouveaux radiotraceurs des lésions amyloïdes et neurofibrillaires pour l'imagerie nucléaire. Cette approche se distingue en trois parties. Dans un premier temps, nous avons validé un modèle animal de la MA: les souris transgéniques 3xTgAD. Dans un second temps, nous avons réalisé l'évaluation biologique de différents radiotraceurs connus sur ce modèle animal : le 99mTc-HMPAO, le 18F-FDG et le 125I-IMPY. Enfin, nous avons initié le développement de plusieurs nouveaux traceurs pour permettre le suivi de la MA in vivo : les para-sulfonato-calixarènes qui présentent une affinité intéressante pour les plaques amyloïdes, les composés COB qui inhibent la formation des agrégats de peptides amyloïdes in vitro ainsi qu'un peptide, A93, associé à un vecteur qui pourrait interagir avec les dégénérescences neurofibrillaires. / Alzheimer's disease (AD) is a neurodegenerative pathology showing cognitive and memory disorders which progress toward an incurable demential state. AD represents the principle cause of the dementia syndrome and it is estimated that AD is involved in 70% of dementia cases. AD prevalence is high in the over 60 years old population. This elevated prevalence is associated with an increasing number of elderly people. AD is therefore a major public health concern. AD is characterized by two types of specific cerebral lesions: neurofibrillary tangles (NFT) and amyloid plaques. However, there is no consensus on the links between these two types of lesions. To date, their presence can only be evaluated by a post-mortem examination. AD being a progressive pathology, this examination cannot be used to fully characterize the dynamic processes involved in AD. In this context, the development of non invasive imaging techniques to monitor the lesions progression in vivo could be determinant in AD pathophysiology understanding. Our objective is to develop new tracers of amyloid and neurofibrillary lesions for nuclear imaging. The first part of this study was dedicated to the validatation of an AD animal model: Transgenic 3xTgAD mice. The second part of this thesis focuses on the appreciatiation of the biological comportement of several known radiotracers of AD on this animal model. In the third part of this work, we initiate the development of several new tracers of AD-specific lesions. The para-sulfonato- calixarenes and the COB compounds for amyloid plaques detection and a peptide named A93, associated to a vector for the study of neurofibrillary tangles.
|
Page generated in 0.0441 seconds