2024-03-29T01:51:43Zhttps://www.tdx.cat/oai/requestoai:www.tdx.cat:10803/1311592017-08-29T18:01:57Zcom_10803_1col_10803_9
nam a 5i 4500
Malaltia d'Alzheimer
Enfermedad de Alzheimer
Alzheimer's disease
Neurologia
Neurología
Neurology
Oligòmers
Oligómeros (Polímeros)
Oligomers
Fosforilació
Fosforilación
Phosphorylation
Reelina
Reelin
Beta-amiloide
Beta amyloid
Analysis of Reelin function in the molecular mechanisms underlying Alzheimer’s disease
[Barcelona] :
Universitat de Barcelona,
2014
Accés lliure
http://hdl.handle.net/10803/131159
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Rossi, Daniela,
autor
1 recurs en línia (178 pàgines)
Tesi
Doctorat
Universitat de Barcelona. Departament de Biologia Cel·lular
2013
Universitat de Barcelona. Departament de Biologia Cel·lular
Tesis i dissertacions electròniques
Soriano García, Eduardo,
supervisor acadèmic
Pujadas Puigdomènech, Lluís,
supervisor acadèmic
TDX
Alzheimer’s disease (AD) is the most common cause of dementia in the elderly, with more than 25 million people affected worldwide. First described in 1907 by the German physician Alois Alzheimer, AD is a neurodegenerative disease characterized by a dramatic progressive loss of synapses and neuronal populations, initially affecting medial temporal lobe structures and finally resulting in diffuse cortical atrophy. The earliest clinical symptoms are episodic memory loss, especially in remembering new items (anterograde amnesia). As the disease progresses, amnesia occurs in conjunction with major executive dysfunctions, such as impairment of language (aphasia), object use (apraxia), recognition of faces or objects (agnosia), abstract reasoning, step-by-step planning, and decision making. This gradual erosion of cognition slowly increases in severity until the symptoms eventually become incapacitating, and at the histological level it is reflected by the progressive spread of specific pathological lesions in a non-random manner across various brain regions. At the histopathological level AD shows two main hallmarks: amyloid plaques and neurofibrillary tangles, occurring in a context of vascular damage, inflammation, oxidative stress, synaptic loss and neurodegeneration.
Reelin is an extracellular matrix protein crucial for neural development. In addition, recent studies have shown that in the adult brain Reelin controls distinct plasticity events, including synaptic plasticity and adult neurogenesis. The Reelin signalling cascade has been previously related to Alzheimer Disease (AD) pathogenesis. However, the exact role that Reelin itself plays on the disease is not fully understood.
The main aim of this thesis is to investigate the involvement of Reelin in AD aetiology, addressing the question of whether Reelin could act as a protective factor, with eventual therapeutic implications, or rather if it might favour the onset of the pathology.
To this end established an strategy to purifiy Reelin protein and to study in vitro its involvement in the process of amyloid fibrils formation. By this approach we found in vitro that Reelin delays amyloid- (Aβ42) fibril formation until it is recruited into amyloid fibrils. Further, Reelin protects against both Aβ42-oligomer induced neuronal death and synaptic loss. We also generated AD mouse models overexpressing Reelin, to address in vivo the impact of Reelin overexpression on the main hallmarks of the disease, such as amyloid fibril formation and phosphorylation of Tau. In detail, we crossed a model of conditional Reelin overexpression (TgRln) from our lab (Pujadas et al., 2010) with two models of AD pathology: J20 and Tet/GSK-3β mice. J20 mice constitutionally express a mutated form of human APP, bearing both the Swedish and the Indiana mutation (hAPP we/Ind) (Mucke et al., 2000), thus being a good model to analyse Aβ pathology. The generated J20 mice overexpressing Reelin are referred to as TgRln/J20. Tet/GSK-3β is a conditional transgenic model of overexpression of GSK-3β, the main kinase for Tau protein, thus being a good model of Taupathology. In TgRln/J20 we showed that Reelin transgene expression delays amyloid plaque formation in vivo. The generated Tet/GSK-3β mice overexpressing Reelin are referred to as TgRln/GSK-3β. Moreover, we show that overexpression of Reelin in J20 AD mice rescues the dendritic spine loss documented for this mouse strain with consequent rescue of the cognitive deficits associated to this AD model, such as non-spatial recognition tasks (assessed by Novel Object Recognition test). Additionally, both aged TgRln and TgRln/J20 mice behaved better than aged wild-type mice, indicating that Reelin protects also from the impairments due to physiological aging. In TgRln/GSK-3β mice we show that Reelin decreases Tau phosphorylation and reduces cognitive deficits in a non-spatial recognition task (Novel Object Recognition). All together these data indicate that by delaying Aβ plaque formation, protecting against neuronal death and synaptic loss, reducing Tau phosphorylation and preventing AD cognitive deficits the Reelin pathway should be considered a therapeutic strategy for the treatment and amelioration of AD pathogenesis and cognitive deficits in normal aging.
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