Interactions between Amyloid Precursor Protein and Prion Protein Impact Cell Adhesion and Apoptosis in the Developing Zebrafish

Kaiser, Darcy

Unknown Date

No description available.

Zebrafish

Amyloid Precursor Protein

Prion Protein

Cell Adhesion

Apoptosis

Knock down

Interactions

Amyloid Precursor Protein-Dependent and -Independent Mechanisms in Hypoxia-Induced Axonopathy

Christianson, Melissa Gottron

January 2012

<p>Hypoxia is a profound stressor of the central nervous system implicated in numerous neurodegenerative diseases. While it is increasingly evident that the early effects of hypoxia cause impairment at the level of the axon, the precise mechanisms through which hypoxia compromises axonal structure and function remain unclear. However, links between hypoxia-induced axonopathic disease and the amyloid cascade, as well as the upregulation of amyloid precursor protein (APP) and amyloid beta (A&beta;) by hypoxic stress, give rise to the hypothesis that proteolytic cleavage of APP into A&beta; may be specifically responsible for axonopathy under conditions of hypoxia. </p><p>The goal of this dissertation was thus to understand dependence of hypoxia-induced axonal morphological and functional impairment on APP cleavage and the production of A&beta;. I have developed a model of hypoxia-induced axonopathy in retinal explants. Using this model, I have experimentally addressed the core hypothesis that APP cleavage, and in particular the formation of A&beta;, is necessary and sufficient to mediate morphological and functional axonopathy caused by hypoxia. I have found that there is a dissociation between the mechanisms responsible for hypoxia-induced morphological and functional impairment of the axon in the explanted retina, with the former being dependent on APP-to-A&beta; processing and the latter likely being dependent on cleavage of a non-APP substrate by the enzyme BACE1. These findings shed light on mechanisms of hypoxia-induced axonopathy.</p> / Dissertation

Neurosciences

Alzheimer's disease

Amyloid Beta

Amyloid Precursor Protein

Axon

Hypoxia

Neurodegeneration

Histone Deacetylase 2 Knockdown Ameliorates Morphological Abnormalities of Dendritic Branches and Spines to Improve Synaptic Plasticity in an APP/PS1 Transgenic Mouse Model / APP/PS1トランスジェニックマウスにおいて、ヒストン脱アセチル化酵素２のノックダウンは樹状突起とスパインの形態異常及びシナプス可塑性を改善する

Nakatsuka, Daiki

26 September 2022

京都大学 / 新制・論文博士 / 博士(医科学) / 乙第13503号 / 論医科博第9号 / 新制||医科||10(附属図書館) / (主査)教授 林 康紀, 教授 髙橋 良輔, 教授 井上 治久 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM

HDAC2

Alzheimer’s disease

dendritic morphology

double transgenic mice

amyloid precursor protein

learning and memory

491

Adult human epidermal melanocytes for neurodegeneration research

Papageorgiou, Nikolaos, Carpenter, Elizabeth, Scally, Andy J., Tobin, Desmond J.

January 2008

No / Neuronal models for Alzheimer's disease research frequently have limitations as a result of their nonhuman origin and/or transformed state. Here we examined the potential of readily accessible neural crest-derived human epidermal melanocytes isolated from elderly individuals as a model system for Alzheimer's disease research. The amyloidogenic isoforms of amyloid precursor protein (APP; isoforms APP751/770) and amyloid beta (A¿)1¿40 were detected in epidermal melanocytes using immunocytochemistry and western blotting. Incubation of epidermal melanocytes with aggregated A¿1¿40 peptide caused a concentration-dependent reduction in cell viability, whereas age-matched dermal fibroblasts remained unaffected. These findings suggest that epidermal melanocytes from elderly donors are capable of amyloidogenesis and are sensitive to A¿1¿40 cytotoxicity. Thus, these cells may provide a readily accessible human cell model for Alzheimer's disease research.

Alzheimer's disease

Neuronal models

Amyloid precursor protein

APP

Optimisation of BACE1 inhibition of tripartite structures by modification of membrane anchors, spacers and pharmacophores – development of potential agents for the treatment of Alzheimer's disease

Linning, Philipp, Haussmann, Ute, Beyer, Isaak, Weidlich, Sebastian, Schieb, Heinke, Wiltfang, Jens, Klafki, Hans-Wolfgang, Knölker, Hans-Joachim

08 April 2014

Systematic variation of membrane anchor, spacer and pharmacophore building blocks leads to an optimisation of the inhibitory effect of tripartite structures towards BACE1-induced cleavage of the amyloid precursor protein (APP). / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Amyloid-Precursor-Protein

APP

Alzheimer-Krankheit

Beta-Sekretase

BACE1

Alzheimer's disease

amyloid precursor protein

human beta-secretase

lipid rafts

manganese-dioxide

design

discovery

cleavage

iodides

enzyme

esters

ddc:540

rvk:VA 1120

Optimisation of BACE1 inhibition of tripartite structures by modification of membrane anchors, spacers and pharmacophores – development of potential agents for the treatment of Alzheimer's disease

Linning, Philipp, Haussmann, Ute, Beyer, Isaak, Weidlich, Sebastian, Schieb, Heinke, Wiltfang, Jens, Klafki, Hans-Wolfgang, Knölker, Hans-Joachim

January 2012

Systematic variation of membrane anchor, spacer and pharmacophore building blocks leads to an optimisation of the inhibitory effect of tripartite structures towards BACE1-induced cleavage of the amyloid precursor protein (APP). / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/540

ddc:540

Efeito de inibidor da acetilcolinesterase no metabolismo da proteína precursora do amiloide em plaquetas / Effect of Acetylcholinesterase inhibitors on amyloid precursor protein metabolism in platelets

Sarno, Tamires Alves

15 September 2016

A doença de Alzheimer (DA) é uma doença neurodegenerativa e a principal causa de demência em idosos. Os mecanismos fisiopatológicos mais envolvidos na DA são: o acúmulo do peptídeo beta amiloide (A?) em agregados extracelulares, e a formação dos emaranhados neurofibrilares (ENF). A Proteína Precursora do Amiloide (APP) é clivada pelas secretases alfa (ADAM10), beta (BACE1) e y (Presenilina 1 [PSEN1]). As plaquetas contêm 95% da APP circulante e possuem toda a maquinaria necessária para estudar perifericamente a APP e suas secretases. A pesquisa de biomarcadores na DA tem como objetivo identificar, em vida, os indicadores do processo patogênico em fluídos corporais e/ou por métodos de imagem cerebral. O objetivo do presente estudo foi investigar proteínas envolvidas no metabolismo da APP em plaquetas de pacientes com DA e o potencial de modificação destas vias pela ação do tratamento com cloridrato de donepezila. Para tanto foram analisadas amostras de 23 pacientes com DA leve ou moderada, avaliados antes e depois de 6 meses de tratamento e 38 indivíduos idosos cognitivamente saudáveis (controles). As variáveis de desfecho estudadas foram: (1) expressão protéica de ADAM10, BACE1 e PSEN1; (2) expressão protéica dos metabólitos secretados da APP de 110 e 130kDa, possibilitando o cálculo da razão de APP (rAPP); e (3) atividade enzimática das APP-secretases ADAM10 e BACE1. Foram utilizados os métodos de western blotting e o fluorimétrico. Encontramos, nos pacientes com DA pré-tratamento, uma diminuição da rAPP em relação aos controles; porém, não identificamos diferenças após seis meses de tratamento. Os níveis de ADAM10 mostraram-se menores em pacientes com DA na avaliação basal quando comparados aos controles, mas também sem modificação com o tratamento, o tratamento mostrou-se associado a uma redução da expressão de BACE1 em pacientes com DA, embora não tenhamos encontrado diferenças entre pacientes e controles na avaliação basal. A expressão de PSEN1 mostrou-se menor nos pacientes com DA pré-tratamento quando comparada aos controles, sem contudo haver alteração em resposta ao tratamento. Quanto à atividade enzimática de ADAM10 e BACE1, não observamos diferenças nos valores pré e pós-tratamento. Nossos achados reforçam a utilidade da utilização de plaquetas como matriz biológica para o estudo do metabolismo da APP em tecidos periféricos e para a investigação de efeitos modificadores da patogenia da DA a partir do tratamento com drogas antidemência / Alzheimer\'s disease (AD) is a neurodegenerative disease and the major cause of dementia in the elderly. The main mechanisms in AD are: extracellular aggregates of beta amyloid peptide (Abeta) and neurofibrillary tangles formation (NFT). Amyloid Precursor Protein (APP) is cleaved by the secretases alfa (ADAM10), beta (BACE1) and ? (Presenilin 1 [PSEN1]). Platelets containing 95% of the circulating APP and possess all the machinery necessary to study peripherically APP and its secretases. The search for biomarkers in AD aims to identify, in life, the pathogenic process indicators in body fluids and/or brain image methods. The aim of this study was to investigate proteins involved in APP metabolism in platelets of AD patients, and the potential modification of these pathways by treatment with Donepezil hydrochloride. Therefore, 23 patients with mild to moderate AD evaluated before and after 6 months treatment and 38 healthy elderly subjects (controls) were analyzed. Outcome variables were: (1) ADAM10, BACE1 and PSEN1 expression; (2) APP secreted metabolites expression (110 and 130kDa), allowing the APP ratio (rAPP) estimate; (3) APP-secretase ADAM10 and BACE1 enzymatic activity. Western blotting and fluorimetric methods were used. We found in AD patients pre-treatment, a decrease of rAPP compared to controls; however, we did not identify differences of this parameter after six months of treatment. The ADAM10 levels were lower in AD patients at baseline when compared to controls, however no differences were observed after treatment. Treatment was associated with a reduction of BACE1 expression in AD patients, although we have not found differences between patients and controls at baseline. PSEN1 expression was lower in pre-treatment AD patients compared to controls. No differences were observed after treatment. Concerning to BACE1 and ADAM10 enzymatic activity, we did not observe differences in pre and post-treatment. Our findings strengthen the use of platelets as a biological matrix for the APP metabolism as well as the modifying effects on AD pathogenicity of antidementia drugs

Alzheimer disease

Amyloid precursor protein secretases

Cholinesterase inhibitors

Doença de Alzheimer

Donepezil

Donepezila

Inibidores da colinesterase

Plaquetas

Platelets

Efeito de inibidor da acetilcolinesterase no metabolismo da proteína precursora do amiloide em plaquetas / Effect of Acetylcholinesterase inhibitors on amyloid precursor protein metabolism in platelets

Tamires Alves Sarno

15 September 2016

A doença de Alzheimer (DA) é uma doença neurodegenerativa e a principal causa de demência em idosos. Os mecanismos fisiopatológicos mais envolvidos na DA são: o acúmulo do peptídeo beta amiloide (A?) em agregados extracelulares, e a formação dos emaranhados neurofibrilares (ENF). A Proteína Precursora do Amiloide (APP) é clivada pelas secretases alfa (ADAM10), beta (BACE1) e y (Presenilina 1 [PSEN1]). As plaquetas contêm 95% da APP circulante e possuem toda a maquinaria necessária para estudar perifericamente a APP e suas secretases. A pesquisa de biomarcadores na DA tem como objetivo identificar, em vida, os indicadores do processo patogênico em fluídos corporais e/ou por métodos de imagem cerebral. O objetivo do presente estudo foi investigar proteínas envolvidas no metabolismo da APP em plaquetas de pacientes com DA e o potencial de modificação destas vias pela ação do tratamento com cloridrato de donepezila. Para tanto foram analisadas amostras de 23 pacientes com DA leve ou moderada, avaliados antes e depois de 6 meses de tratamento e 38 indivíduos idosos cognitivamente saudáveis (controles). As variáveis de desfecho estudadas foram: (1) expressão protéica de ADAM10, BACE1 e PSEN1; (2) expressão protéica dos metabólitos secretados da APP de 110 e 130kDa, possibilitando o cálculo da razão de APP (rAPP); e (3) atividade enzimática das APP-secretases ADAM10 e BACE1. Foram utilizados os métodos de western blotting e o fluorimétrico. Encontramos, nos pacientes com DA pré-tratamento, uma diminuição da rAPP em relação aos controles; porém, não identificamos diferenças após seis meses de tratamento. Os níveis de ADAM10 mostraram-se menores em pacientes com DA na avaliação basal quando comparados aos controles, mas também sem modificação com o tratamento, o tratamento mostrou-se associado a uma redução da expressão de BACE1 em pacientes com DA, embora não tenhamos encontrado diferenças entre pacientes e controles na avaliação basal. A expressão de PSEN1 mostrou-se menor nos pacientes com DA pré-tratamento quando comparada aos controles, sem contudo haver alteração em resposta ao tratamento. Quanto à atividade enzimática de ADAM10 e BACE1, não observamos diferenças nos valores pré e pós-tratamento. Nossos achados reforçam a utilidade da utilização de plaquetas como matriz biológica para o estudo do metabolismo da APP em tecidos periféricos e para a investigação de efeitos modificadores da patogenia da DA a partir do tratamento com drogas antidemência / Alzheimer\'s disease (AD) is a neurodegenerative disease and the major cause of dementia in the elderly. The main mechanisms in AD are: extracellular aggregates of beta amyloid peptide (Abeta) and neurofibrillary tangles formation (NFT). Amyloid Precursor Protein (APP) is cleaved by the secretases alfa (ADAM10), beta (BACE1) and ? (Presenilin 1 [PSEN1]). Platelets containing 95% of the circulating APP and possess all the machinery necessary to study peripherically APP and its secretases. The search for biomarkers in AD aims to identify, in life, the pathogenic process indicators in body fluids and/or brain image methods. The aim of this study was to investigate proteins involved in APP metabolism in platelets of AD patients, and the potential modification of these pathways by treatment with Donepezil hydrochloride. Therefore, 23 patients with mild to moderate AD evaluated before and after 6 months treatment and 38 healthy elderly subjects (controls) were analyzed. Outcome variables were: (1) ADAM10, BACE1 and PSEN1 expression; (2) APP secreted metabolites expression (110 and 130kDa), allowing the APP ratio (rAPP) estimate; (3) APP-secretase ADAM10 and BACE1 enzymatic activity. Western blotting and fluorimetric methods were used. We found in AD patients pre-treatment, a decrease of rAPP compared to controls; however, we did not identify differences of this parameter after six months of treatment. The ADAM10 levels were lower in AD patients at baseline when compared to controls, however no differences were observed after treatment. Treatment was associated with a reduction of BACE1 expression in AD patients, although we have not found differences between patients and controls at baseline. PSEN1 expression was lower in pre-treatment AD patients compared to controls. No differences were observed after treatment. Concerning to BACE1 and ADAM10 enzymatic activity, we did not observe differences in pre and post-treatment. Our findings strengthen the use of platelets as a biological matrix for the APP metabolism as well as the modifying effects on AD pathogenicity of antidementia drugs

Doença de Alzheimer

Donepezila

Inibidores da colinesterase

Plaquetas

Alzheimer disease

Amyloid precursor protein secretases

Cholinesterase inhibitors

Donepezil

Platelets

Pathogenic Mechanisms of the Arctic Alzheimer Mutation

Sahlin, Charlotte

January 2007

<p>Alzheimer’s disease (AD) is a progressive neurodegenerative disorder, neuropathologically characterized by neurofibrillay tangles and deposition of amyloid-β (Aβ) peptides. Several mutations in the gene for amyloid precursor protein (APP) cause familial AD and affect APP processing leading to increased levels of Aβ42. However, the Arctic Alzheimer mutation (APP E693G) reduces Aβ levels. Instead, the increased tendency of Arctic Aβ peptides to form Aβ protofibrils is thought to contribute to the pathogenesis. </p><p>In this thesis, the pathogenic mechanisms of the Arctic mutation were further investigated, specifically addressing if and how the mutation affects APP processing. Evidence of a shift towards β-secretase cleavage of Arctic APP was demonstrated. Arctic APP did not appear to be an inferior substrate for α-secretase, but the availability of Arctic APP for α-secretase cleavage was reduced, with diminished levels of cell surface APP in Arctic cells. Interestingly, administration of the fatty acid docosahexaenoic acid (DHA) stimulated α-secretase cleavage and partly reversed the effects of the Arctic mutation on APP processing.</p><p>In contrast to previous findings, the Arctic mutation generated enhanced total Aβ levels suggesting increased Aβ production. Importantly, this thesis illustrates and explains why measures of both Arctic and wild type Aβ levels are highly dependent upon the Aβ assay used, with enzyme-linked immunosorbent assay (ELISA) and Western blot generating different results. It was shown that these differences were due to inefficient detection of Aβ oligomers by ELISA leading to an underestimation of total Aβ levels. </p><p>In conclusion, the Arctic APP mutation leads to AD by multiple mechanisms. It facilitates protofibril formation, but it also alters trafficking and processing of APP which leads to increased steady state levels of total Aβ, in particular at intracellular locations. Importantly, these studies highlight mechanisms, other than enhanced production of Aβ peptide monomers, which could be implicated in sporadic AD.</p>

Neurosciences

Alzheimer's disease

Arctic mutation

Amyloid precursor protein

Amyloid-β

APP processing

Aβ oligomers

Docosahexaenoic acid

Neurovetenskap

Pathogenic Mechanisms of the Arctic Alzheimer Mutation

Sahlin, Charlotte

January 2007

Alzheimer’s disease (AD) is a progressive neurodegenerative disorder, neuropathologically characterized by neurofibrillay tangles and deposition of amyloid-β (Aβ) peptides. Several mutations in the gene for amyloid precursor protein (APP) cause familial AD and affect APP processing leading to increased levels of Aβ42. However, the Arctic Alzheimer mutation (APP E693G) reduces Aβ levels. Instead, the increased tendency of Arctic Aβ peptides to form Aβ protofibrils is thought to contribute to the pathogenesis. In this thesis, the pathogenic mechanisms of the Arctic mutation were further investigated, specifically addressing if and how the mutation affects APP processing. Evidence of a shift towards β-secretase cleavage of Arctic APP was demonstrated. Arctic APP did not appear to be an inferior substrate for α-secretase, but the availability of Arctic APP for α-secretase cleavage was reduced, with diminished levels of cell surface APP in Arctic cells. Interestingly, administration of the fatty acid docosahexaenoic acid (DHA) stimulated α-secretase cleavage and partly reversed the effects of the Arctic mutation on APP processing. In contrast to previous findings, the Arctic mutation generated enhanced total Aβ levels suggesting increased Aβ production. Importantly, this thesis illustrates and explains why measures of both Arctic and wild type Aβ levels are highly dependent upon the Aβ assay used, with enzyme-linked immunosorbent assay (ELISA) and Western blot generating different results. It was shown that these differences were due to inefficient detection of Aβ oligomers by ELISA leading to an underestimation of total Aβ levels. In conclusion, the Arctic APP mutation leads to AD by multiple mechanisms. It facilitates protofibril formation, but it also alters trafficking and processing of APP which leads to increased steady state levels of total Aβ, in particular at intracellular locations. Importantly, these studies highlight mechanisms, other than enhanced production of Aβ peptide monomers, which could be implicated in sporadic AD.

Neurosciences

Alzheimer's disease

Arctic mutation

Amyloid precursor protein

Amyloid-β

APP processing

Aβ oligomers

Docosahexaenoic acid

Neurovetenskap