The Impact of Causative Genes on Neuropsychological Functioning in Familial Early-Onset Alzheimer's Disease: A Meta-Analysis

Smotherman, Jesse M.

05 1900

Mutations of three genes encoding amyloid precursor protein (APP), presenilin-1 (PSEN1), and presenilin-2 (PSEN2) have been shown to reliably result in familial early-onset Alzheimer's disease (FAD); a rare, but catastrophic, subtype of Alzheimer's disease (AD) marked by symptom emergence before age 65 as well as accelerated cognitive deterioration. The current study represents the first known meta-analysis on the association of APP, PSEN1 or PSEN2 on neurocognitive variables. A total of 278 FAD mutation-carriers (FAD-MC) and 284 cognitively healthy non-mutation-carriers (NC) across 10 independent investigations meeting inclusion criteria were chosen for the current meta-analysis (random effects design). Findings revealed an overarching trend of poorer performance by FAD-MC individuals compared to NC individuals across the majority of cognitive domains identified. Significant differences in effect sizes suggested FAD-MC individuals exhibited worse performance on measures of attention, explicit memory, fluency, primary memory, verbal, and visuospatial functioning. Findings indicative of differential sensitivity to cognitive domain impairments across FAD-MC and NC groups inform neuropsychological descriptions of individuals in preclinical phases of FAD.

Amyloid precursor protein

APP

presenilin-1

PSEN-1

presenilin-2

PSEN-2

Genetic

Neuropsych

Cognitive performance

Alzheimer's disease -- Genetic aspects.

Amyloid beta-protein precursor.

Cognition disorders.

Investigating protein-protein interactions in order to develop novel therapeutics for the treatment of Alzheimer's disease

Aitken, Laura

January 2013

Alzheimer's disease (AD) accounts for around two thirds of all dementia cases and an increase in life expectancy of the population has resulted in a substantial increase in dementia cases and with that a rise in AD. AD is a debilitating and ultimately fatal neurodegenerative disorder of the elderly, and despite being identified over a century ago, the current treatments do not treat the underlying causes behind the disease, instead they help to mask the symptoms of the disease and prolong the brain's remaining function. It is therefore vital that an effective, disease modifying treatment for this disease is established as soon as possible. Soluble intracellular forms of amyloid β (peptide Aβ), a hallmark of AD have been identified and intracellular targets of Aβ are being investigated as potential drug targets for the disease. Two key intracellular, mitochondrial proteins investigated as potential drug targets: amyloid binding alcohol dehydrogenase (ABAD) and cyclophilin D (CypD) are the focus of the work reported in this thesis. To begin identifying potential inhibitors of the ABAD-Aβ interaction, a two-pronged approach was taken. Firstly, a series of analogues based on a known inhibitor of the interaction were tested using a variety of biophysical assays, for their therapeutic affect on the interaction, and secondly a fragment based screening approach was used to identify new small molecule binding partners of ABAD which could potentially be modified to produced inhibitors of the ABAD-Aβ interaction. Three different CypD constructs have been successfully expressed and purified, and taken into crystal trials. It is hoped that these constructs can be used to significantly aid the progress of identifying any potential inhibitors and binding partners of CypD that may produce therapeutic effects, and in the future could lead to the identification of an effective disease modifying drug in the treatment of AD. The work reported in this thesis has built upon previously reported findings and the groundwork has also been established for several in vitro biophysical assays, these include for example: measuring ABAD enzyme activity, and the novel morphology specific Aβ aggregation assay, which can be used as screening tools to help identify potential inhibitors of these interactions. Both the ABAD-Aβ interaction, and the blockade of CypD are known to be drug targets in the treatment of AD, and by elucidating the molecular mechanisms behind these interactions, through implementing biophysical assays, this will help in the identification and design of potential new therapeutic agents for the treatment of AD.

616.8

Impact of N-terminally truncated Aß4-42 on memory and synaptic plasticity - Tg4-42 a new mouse model of Alzheimer's disease

Dietrich, Katharina

17 December 2014

No description available.

610

Alzheimer's disease

Amyloid-beta

N-truncated abeta

Transgenic mouse model

Tg4-42

Morris water maze

Fear conditioning

Spatial reference memory

Associative memory

Neuron loss

Synaptic transmission

Synaptic plasticity

Long-term potentiation (LTP)

Medizin (PPN619874732)

Study of the pathophysiological role of nitric oxide and nitrative stress in brain: translational effects on the cleavage of the amyloid precursor protein in Alzheimer's disease and post-translational effects on fibrinogen in brain ischemia

Ill-Raga, Gerard

28 September 2010

Nitric oxide (NO) is a neurotransmitter involved in memory processes. Currently, the only recognized physiological signalling pathway controlled by NO is the activation of guanylyl cyclase. In this thesis, we propose an alternative NO-signalling pathway that involves the Heme-regulated eukaryotic initiation factor-2a kinase (HRI) and eIF2a phosphorylation. We have found that the enzyme BACE1, a key protein in Alzheimer’s disease (AD), is controlled by this novel pathway. This pathway would be involved in the physiology of memory formation and learning processes. We have also studied how an external stress factor, the Herpes Simplex Virus 1, can disrupt this cascade leading to a pathological increase in BACE1 and amyloid ß-peptide (Aß) production. Aß aggregates forming fibrils that generate free radicals. These react with NO producing peroxynitrite, which contribute to AD progression. Since NO turns toxic when produced in a pro-oxidant environment we have also studied the effect of peroxynitrite in Stroke. / L’òxid nítric (NO) és un neurotransmissor involucrat en processos de memòria. Actualment, l’única cascada de senyalització fisiològica controlada per NO consisteix en l’activació de la guanilat ciclasa. En aquesta tesi, en proposem una d’alternativa que inclou la fosforilació de eIF2a per la Heme-regulated eukaryotic initiation factor-2a kinase (HRI). Hem mostrat com l’enzim BACE1, una proteïna clau en la malaltia d’Alzheimer (AD), és controlat per aquesta nova cascada de senyalització, que podria estar involucrada en la fisiologia de l’aprenentatge i la memòria. També hem estudiat com un factor d’estrès extern, l’ Herpes Simplex Virus 1, pot pertorbar aquesta cascada donant lloc a increments patològics en BACE1 i pèptid ß-amiloide (Aß). L’Aß agrega formant fibril·les que generen radicals lliures. Aquests reaccionen químicament amb NO produint peroxinitrit, que contribueix a la progressió de l’AD. Pel fet que l’NO esdevé tòxic quan és produït en un entorn pro-oxidant, hem estudiat també l’impacte que el peroxinitrit té en l’ictus.

Alzheimer’s disease

Amyloid-beta peptide

Amyloid Precursor Protein

Eukaryotic initiation factor-2a (eIF2a)

Fibrinogen

Malaltia d’Alzheimer (AD)

Proteina cinasa

Proteina Precursora de l’Amiloide

Sintases d’òxid nítric (NOS)

Herpes Simplex Virus

57

Etude de la structure et de la toxicité des oligomères du peptide amyloïde-beta: implication dans la maladie d'Alzheimer / Structure and toxicity of Amyloid-beta oligomers: implications in Alzheimer's disease

Sarroukh, Rabia

26 August 2011

La maladie d’Alzheimer est actuellement la forme de démence la plus courante. Les causes, les facteurs de risques ainsi que le(s) mécanisme(s) conduisant à l’apparition des symptômes ne sont pas encore clairement connus. Néanmoins, le rôle central du peptide amyloïde (Aβ) dans le développement de la maladie a été démontré au travers de nombreuses recherches et fait actuellement l’unanimité. L’espèce oligomérique d’Aβ est plus précisément pointée doigt comme l’espèce la plus toxique. La formation des oligomers, au cours du processus d’agrégation, conduit à une population hétérogène en termes de taille et morphologies limitant la compréhension actuelle de leur implication dans le processus pathologique ainsi que dans l’initiation de la maladie. <p>Notre étude structurale minutieuse du processus d’agrégation du peptide Aβ démontre la formation d’agrégats dont le degré d’assemblage augmente au cours du temps. Nous avons montré que les agrégats identifiés comme étant des oligomères adoptent une structure en feuillets β antiparallèles. Tandis que l’interconversion de la structure β d’antiparallèle à parallèle conduit à la formation de fibrilles. Sur base de l’interprétation des spectres infrarouges analysés par corrélation à 2 dimensions, nous suggérons que ce changement de conformation est rendu possible grâce aux modifications des liens hydrogènes. En effet, les liens hydrogènes intramoléculaires qui stabilisent la structure antiparallèle des brins β disparaissent en faveur de liens intermoléculaires conduisant à la formation de feuillets β parallèles. De plus, ce changement de conformation requière la rotation des brins β le long de leur axe respectif. <p>Notre travail a pu mettre en avant le rôle central des oligomères dans la pathologie d’une part par leur rôle d’intermédiaires transitoires nécessaires et obligatoires à la formation des fibrilles mais également par la relation étroite qui existe entre leur structure en feuillets β antiparallèles et leur toxicité cellulaire. La modulation et/ou suppression de cette conformation est requise spécifiquement pour réguler leur toxicité et empêcher le processus de mauvais reploiement du peptide conduisant au développement de la maladie. <p>Enfin, nous avons également apporté de nouvelles informations concernant l’implication des membranes biologiques dans le mécanisme de toxicité des oligomères. Nos résultats démontrent que l’interaction du peptide avec un modèle de la membrane biologique ne conduit pas à la déstabilisation de cette dernière. L’hypothèse suggérant la formation de pores et/ou de canaux ioniques comme mécanisme de cytotoxicité est de facto réfutée par notre travail. Néanmoins, nous suggérons que l’interaction du peptide avec les lipides modifie le processus d’agrégation décrit dans la première partie de notre travail. Elle accélère l’étape de nucléation permettant la formation rapide d’oligomères à la surface de la membrane et accentuant ainsi leur probabilité d’interaction avec les protéines membranaires neuronales telles que les récepteurs de neurotransmetteurs./<p>Aggregation of amyloid-β peptides (Aβ1-40 and Aβ1-42) leads to formation of heterogeneous<p>toxic species, oligomers and fibrils, implicated in Alzheimer’s disease. As oligomers were<p>identified as the most cytotoxic entities, our research did focus on their implications in<p>pathology and the Aβ aggregation process which are currently not fully understood.<p>Using ATR-FTIR spectroscopy, we demonstrated that Aβ oligomers adopt an antiparallel β-<p>sheet structure. β-sheet interconversion from antiparallel to parallel seems to be an important<p>step in the Aβ oligomers-to-fibrils transformation. Furthermore, 2-D correlation analysis of<p>infrared spectra recorded during aggregation showed that Aβ isoforms undergo different β-<p>sheet reorganizations explaining their distinct aggregation kinetics. Aβ1-40 misfolding seems<p>to be related to a greater extent of secondary structure changes (increase of β-sheet structure<p>while α-helices and random coil structures content decrease). On the contrary, the same<p>analysis for Aβ1-42 suggests that a possible β-strand ‘rotation’ triggering inter-H bonding<p>formation and stabilizing fibrils may probably explain the antiparallel to parallel β-sheet<p>conversion.<p>We also provided evidence that cytotoxicity is strongly related to the oligomeric antiparallel<p>β-sheet structure of Aβ. The concomitant absence of antiparallel β-sheet structure due to<p>incubation with whey protein-derived peptide hydrolysate strongly suggests that cytotoxicity<p>and β-sheets organization are related.<p>Formation of β-barrel spanning the lipid membrane has been proposed to explain this Aβ<p>structure-toxicity relationship. In the last part of our work, we demonstrated that the<p>interaction of Aβ1-42 with anionic lipid membranes creates and/or stabilizes specific-size<p>oligomers. These oligomers, especially the dodecamer, are known to be the most toxic.<p>Nevertheless, we could not show that these specific oligomers are implicated in membrane<p>destabilization. Further works are needed to separate and study the individual properties of<p>each oligomer. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Chimie

Sciences exactes et naturelles

Alzheimer's disease -- Molecular aspects

Alzheimer's disease -- Pathophysiology

Amyloid beta-protein

Oligomers -- Toxicity testing

Maladie d'Alzheimer -- Physiopathologie

Protéine bêta amyloïde

Oligomères -- Toxicité

oligomers

structure

amyloïde-beta

Alzheimer

Développement et caractérisation d'un nouveau modèle expérimental de la maladie d'Alzheimer chez le rat non transgénique / Development and characterisation of a new experimental model of Alzheimer's disease in non-transgenic rat

Maleysson, Vincent

06 January 2016

La maladie d'Alzheimer (MA) est caractérisée par un déclin progressif des fonctions cognitives avec une détérioration de la mémoire, une atrophie cérébrale et deux lésions histologiques caractéristiques retrouvées lors d'examens post-mortem : les plaques extracellulaires de peptide β-amyloïde et les enchevêtrements intracellulaires de la protéine Tau anormalement phosphorylée. De nombreux modèles animaux de la MA ont été développés afin de comprendre et de tester différents traitements dirigés contre cette pathologie. Cependant, aucun modèle de rongeur non transgénique, développant à la fois les plaques amyloïdes et la pathologie neurofibrillaire, n'est disponible à ce jour. L'objectif de cette étude est de développer le premier modèle non transgénique, développant les deux lésions histologiques caractéristiques de la MA chez le rat. Le principe consiste à réaliser une injection concomitante et intrahippocampale d'un AAV (virus associé aux adénovirus) recombinant contenant le gène humain de la protéine Tau présentant la mutation P301L, et du peptide Aβ1-42 qui est le principal composant des plaques amyloïdes. Après plusieurs expériences, nous avons obtenu un modèle animal représentatif des stades précoces de la MA, c'est-à-dire avec des lésions focalisées dans l'une des premières structures du cerveau affectée par la MA : l'hippocampe. La présence des deux lésions histopathologiques caractéristiques de la maladie, accompagnée d'une astrocytose, a été observée par immunohistofluorescence. Une détérioration de la mémoire concernant plus particulièrement la mémoire de travail, ainsi que des anormalités de l'activité électrique cérébrale et notamment durant les phases de sommeil paradoxal, enregistrées par électroencéphalographie, ont également été mises en évidence. / Alzheimer's disease (AD) is characterized by a progressive decline in cognitive function with a memory impairment, a brain atrophy, and two histological hallmarks observed from post-mortem examination: extracellular β-amyloid plaques and intracellular tangles of the Tau protein abnormally phosphorylated. Numerous animal models of AD have been developed to understand and to test drugs against this pathology. However, any non-transgenic model of rodent developing amyloid plaques and the neurofibrilary pathology is currently available. The aim of this study is to develop the first non-transgenic model producing the two histopathological features of AD in the rat. The principle is to perform a concomitant intrahippocampal injection of a recombinant AAV (Adeno-Associated Virus) containing the human transgene tau with the P301L mutation, and of Aβ1-42 peptide, the main component of the amyloid plaques. After several experiments, we have obtained an animal model representative of the early steps of AD, i.e. with lesions focalized in one of the first affected brain structures in the AD: the hippocampus. The presence of the two histopathological hallmarks has been observed by immunohistofluorescence and associated with an astrogliosis. A memory impairment concerning more particulary the working memory, and abnormalities of the electrical activity of the brain and of the rapid eye movement sleep recorded by electroencephalography, are also characterized.

Maladie d'Alzheimer

Modèle animal expérimental

Peptide β-Amyloïde

Protéine Tau

Électroencéphalographie

Sommeil paradoxal

Mémoire de travail

Mémoire de référence

Alzheimer's disease

Experimental animal model

Amyloid beta peptide

Tau protein

Electroencephalography

Rapid eye movement sleep

Working memory

Reference memory

616.831

Les réseaux d’interactions de l’endostatine, de l’angiogenèse à la maladie d’Alzheimer / The interaction networks of endostatin, from angiogenesis to Alzheimer's disease

Salza, Romain

16 September 2015

La matrice extracellulaire est composée d’environ 300 protéines et protéoglycanes qui constituent le matrisome et de 800 protéines associées (Naba et al., 2012a) et glycosaminoglycanes. C’est un protéome sous-exploré qui est modifié dans de nombreuses pathologies. Les fragments bioactifs issus de la matrice extracellulaire (matricryptines) sont capables de réguler des processus physiopathologiques et notamment l’angiogenèse et les pathologies cérébrales (Ricard-Blum and Salza, 2014). Environ 90 % des patients atteints de la maladie d’Alzheimer (MA) ont une angiopathie amyloïde cérébrale. L’angiogenèse contribue au déroulement de la MA. Nous nous sommes intéressés à l’endostatine (ES), une matricryptine du collagène XVIII qui possède des activités anti-angiogéniques, anti-tumorales et est également présente dans les plaques amyloïdes chez les patients atteints de la MA. Elle est libérée par les neurones et est capable de former des fibrilles amyloïdes in vitro (Kranenburg et al., 2003). Elle pourrait donc avoir une implication dans la MA. Nous avons montré que l'ES est présente dans le liquide céphalorachidien et que le rapport de sa concentration à celle des marqueurs classiques de la MA permet d’améliorer le diagnostic des patients atteint de démence fronto-temporale (DFT) et de discriminer les patients atteints de MA de ceux atteint de DFT et de pathologie nonMA/nonDFT. Nous avons établi les répertoires d’interactions extracellulaire du peptide -amyloïde (1-42) sous formes monomérique, oligomérique, fibrillaire ou agrégée et montré que l’oligomérisation et la fibrillogenèse augmentent la capacité d’interaction du peptide -amyloïde. Nous avons établi le réseau d’interaction global de l’endostatine par résonance plasmonique de surface en mode imagerie et identifiés 21 nouveaux partenaires de cette matricryptine. Nous avons plus particulièrement caractérisé son interaction avec la Procollagen C-Proteinase Enhancer-1, une protéine dont nous avons montré qu’elle donne naissance à une matricryptine anti-angiogénique. Nous avons enfin construit les réseaux d’interactions extracellulaires spécifiques de l’angiogenèse et de la maladie d’Alzheimer et des processus amyloïdes pour identifier les protéines connectant ces deux processus qui sont des cibles thérapeutiques potentielles. Ces réseaux d’interactions ont été créés à l’aide de 239 interactions que nous avons identifiées expérimentalement et des interactions décrites dans la littérature. Ces données seront à terme disponibles dans la base de données spécifique des interactions extracellulaires créée au laboratoire, MatrixDB, dans la nouvelle version à laquelle nous avons contribué. / The extracellular matrix include approximately 300 proteins and proteoglycans which constitute the matrisome and 800 associated proteins (Naba et al., 2012a) and glycosaminoglycans. It is an under-explored proteome which is modified in many diseases. Extracellular matrix bioactives fragments (matricryptins) are able to regulate physiopathological process like angiogenesis and cerebral disorders (Ricard-Blum and Salza, 2014). About 90 % of patients with Alzheimer's disease (AD) have cerebral amyloid angiopathy. Angiogenesis contributes to the development of AD. We are studying endostatin (ES), a matricryptin of collagen XVIII which has anti-angiogenic and anti-tumoral activities and is also present in amyloid plaques in AD patients. ES is released by neurons and is able to form amyloid fibrils in vitro (Kranenburg et al., 2003). This anti-angiogenic matricryptin could therefore be involved in AD. We have shown that ES is present in the cerebrospinal fluid of AD patients and the ratio of its concentrations to conventional markers of AD improves the diagnosis of patients with frontotemporal dementia (FTD) and discriminate AD patients from those suffering from FTD and pathology noAD/noDFT. We have established the extracellular interactions repertoires of the -amyloid peptide (1-42) in monomeric, oligomeric, fibrillar or aggregated forms and showed that the oligomerization and fibrillogenesis increase the interaction capacity of the -amyloid peptide. We have established the global interaction network of endostatin by surface plasmon resonance imaging and identified 21 new partners of this matricryptin. Specifically, we characterized its interaction with the Procollagen C-Proteinase Enhancer-1, a protein which gives rise to an anti-angiogenic matricryptin. We finally built networks of specific extracellular interactions of angiogenesis and of Alzheimer's disease and amyloid process to identify proteins connecting these two processes that are potential therapeutic targets. These interaction networks have been built using 239 interactions including those we have identified experimentally and those described in the literature. This data will be available in the database specific of extracellular interactions created in the laboratory, MatrixDB, in the new version of which we contributed.

Alzheimer

Matrice Extracellulaire

Endostatine

Resonance Plasmonique de Surface

Peptide beta Amyloide

Liquide Cephalorachidien

Protéoglycanes

Fibrillogenèse

Alzheimer

Extracellular Matrix

Endostatin

Surface Plasmon Resonance

Amyloid beta peptide

Cerebrospinal Fluid

Proteoglycan

Fibrillogenesis

572

Estudos da ação de íons metálicos e da SOD1 em danos a biomoléculas em culturas de células neuronais sob neurodegeneração e estresse oxidativo

Nunes, Emilene Arusievicz

January 2018

Orientadora: Profa. Dra. Giselle Cerchiaro / Tese (doutorado) - Universidade Federal do ABC, Programa de Pós-Graduação em Biossistemas, Santo André, 2018. / Em doencas neurodegenerativas amiloidais o estresse oxidativo tem um papel importante juntamente com a proteina ¿À-amiloide (A¿À), associada a formacao de placas senis na Doenca de Alzheimer. Tais condicoes demonstraram desbalanco de metais, como cobre e zinco, tanto na concentracao celular e quanto nos processos antioxidantes. A Cu,Zn-Superoxido Dismutase (SOD1), em condicoes neurodegenerativas, pode demonstrar alteracoes estruturais e funcionais, tendo menor afinidade pelo cobre e pelo zinco. Diante destas condicoes, o objetivo principal desta tese foi em condicoes oxidativa (H2O2) e neurodegenerativa (A¿À1-42) avaliar os danos a biomoleculas, concentracao metais e a influencia da enzima SOD1 em linhagens de celulas neuronais (NSC-34 e mHippoE2). Diferentes respostas quanto a sensibilidade das linhagens neuronais foi observada durante as condicoes oxidativas e neurodegenerativa. Quanto os danos ao DNA a linhagem NSC-34 demonstrou maior sensibilidade a condicao oxidativa, com aumento de danos ao DNA, lesoes oxidativas em bases nitrogenadas que indicaram a presenca de lesoes tipo 8-oxo-G, corroborando com anormalidades nucleares e inibicao do processo de divisao celular. Nesta mesma linhagem quantidades aumentadas de Cu foram observadas, juntamente com a presenca da enzima SOD1 a nivel citoplasmatico e nuclear na condicao oxidativa (H2O2), alem de resultados significantes para danos permanentes ao DNA (anormalidades nucleares e quebras cromossomicas). A linhagem mHippoE2 apresentou aumentos significativos mediante a condicao oxidativa e neurodegenerativa, como oxidacao de proteinas e lipidios, demonstrando tambem alteracoes morfologicas citoplasmaticas. O tratamento com A¿À1-42 demonstrou aumento de danos ao DNA, lesoes oxidativas 8-oxo-G e tambem em bases purinicas. Podemos observar nesta mesma linhagem a forte influencia do Zn na condicao neurodegenerativa, atividade da SOD1 em ambas condicoes e tambem danos permanentes ao DNA mediante condicao neurodegenerativa. Dentre os resultados obtidos salientamos a relevancia dos achados na condicao neurodegenerativa ocasionada pelo peptideo A¿À1-42 nos ensaios para avaliacao genotoxica e mutagenica. Tal condicao demonstrou a presenca de danos importantes a bases nitrogenadas, tanto purinicas quando pirimidinicas, apontando tambem para possiveis efeitos mutagenicos detectados pelos eventos de quebras cromossomicas associados as anormalidades nucleares, bem como a presenca da enzima SOD1 no nucleo das celulas. / In neurodegenerative diseases, oxidative stress plays an important role associated with â-amyloid protein (Aâ), associated with the formation of amyloid plaques in Alzheimer's Disease (AD). In AD condition it has been demonstrated an imbalance of essential metals, such as copper and zinc, their cellular concentration and antioxidant processes alterations. The antioxidant enzyme Cu, Zn-Superoxide Dismutase (SOD1), under neurodegenerative conditions has structural and functional changes, such as lower affinity for copper and zinc. According to these conditions, the main objective of this thesis was to investigate how the oxidative (H2O2) and neurodegenerative (Aâ1-42) conditions cause biomolecules damage, metal alteration and SOD1 location in neuronal cell lines (NSC-34 and mHippoE2). Different responses in neuronal cell lines were observed during the conditions evaluated. For DNA damage, the NSC-34 cells demonstrated greater sensitivity to the oxidative condition, with increased DNA damage, oxidative lesions on nitrogenized bases indicating the presence of 8-oxo-G type lesions. In this same cell line we observed an increase of Cu amount, together with the presence of the SOD1 enzyme at the cytoplasmic and nuclear level in the oxidative condition (H2O2). The mHippoE2 cell line presented increased protein oxidation through the oxidative and neurodegenerative condition. Treatment with Aâ1-42 demonstrated increased DNA damage in this cell, 8-oxo-G oxidative lesions and also purine bases. We observed, in this same cell line, the strong influence of Zn on the neurodegenerative condition, SOD1 activity in both conditions and it was observed permanent damages to DNA in the neurodegenerative condition. Among the results, we highlight the relevance of the findings in the neurodegenerative condition caused by the Aâ1-42 peptide in the genotoxic and mutagenic evaluation trials. This condition demonstrated the presence of important damages to nitrogenated bases, both purine and pyrimidine, also pointing to possible mutagenic effects detected by the events of chromosomal breaks associated with nuclear abnormalities, as well as the translocation of the SOD1 enzyme to nuclei.

DOENÇAS NEURODEGENERATIVAS

ÍONS METÁLICOS

COBRE

ZINCO

Cu,Zn-SUPERÓXIDO DISMUTASE

ESTRESSE OXIDATIVO

PROTEÍNA BETA-AMILÓIDE

NEURODEGENERATIVE DISEASES

METAL IONS

COPPER

ZINC

OXIDATIVE STRESS

AMYLOID BETA PEPTIDE

Long-term ovarian hormone deprivation alters functionalconnectivity, brain neurochemical profile and white matter integrityin the Tg2576 amyloid mouse model of Alzheimer’s disease

Kara, Firat, Belloy, Michael E., Voncken, Rick, Sarwari, Zahra, Garima, Yadav, Anckaerts, Cynthia, Langbeen, An, Leysen, Valerie, Shah, Disha, Jacobs, Jules, Hamaide, Julie, Bols, Peter, Audekerke, Johan Van, Daans, Jasmijn, Guglielmetti, Caroline, Kantarci, Kejal, Prevot, Vincent, Roßner, Steffen, Ponsaerts, Peter, Linden, Annemie Van der, Verhoye, Marleen

12 November 2024

Premenopausal bilateral ovariectomy is considered to be one of the risk factors of Alzheimer's disease (AD). However, the underlying mechanisms remain unclear. Here, we aimed to investigate long-term neurological consequences of ovariectomy in a rodent AD model, TG2576 (TG), and wild-type mice (WT) that underwent an ovariectomy or sham-operation, using in vivo MRI biomarkers. An increase in osmoregulation and energy metabolism biomarkers in the hypothalamus, a decrease in white matter integrity, and a decrease in the resting-state functional connectivity was observed in ovariectomized TG mice compared to sham-operated TG mice. In addition, we observed an increase in functional connectivity in ovariectomized WT mice compared to sham-operated WT mice. Furthermore, genotype (TG vs. WT) effects on imaging markers and GFAP immunoreactivity levels were observed, but there was no effect of interaction (Genotype × Surgery) on amyloid-beta-and GFAP immunoreactivity levels. Taken together, our results indicated that both genotype and ovariectomy alters imaging biomarkers associated with AD.

info:eu-repo/classification/ddc/610

ddc:610

Intégrité de la barrière hémato-encéphalique et transport du peptide bêta-amyloïde dans la maladie d'Alzheimer / Integrity of the blood-brain barrier and transport of amyloid-beta peptide in Alzheimer's disease

Do, Tuan Minh

25 September 2012

Récemment, des études menées chez des patients atteints de la maladie d’Alzheimer (MA) suggèrent un rôle important de la clairance cérébrale des peptides bêta-amyloïde (Abeta) dans la physiopathologie de la MA. Les échanges de peptide Abeta entre le cerveau et le sang peuvent se faire à travers la barrière hémato-encéphalique (BHE). De nombreux transporteurs sont exprimés au niveau de la BHE, telles les protéines ABC (ATP-Binding Casette) et SLC (Solute Carriers). Il a été montré que l’influx du peptide Abeta à travers la BHE était partiellement médié par le récepteur RAGE (Receptor for Advanced Glycation End products) et son efflux par le récepteur LRP-1 (Low density lipoprotein receptor-related protein 1). De plus, l’implication de transporteurs ABC/SLC dans le passage cérébral du peptide Abeta a été suggérée. Il paraît donc important de caractériser les transporteurs ABC et/ou SLC impliqués dans le transport du peptide Abeta à travers la BHE. D’autre part, l’on peut se demander si, dans le cadre de la MA, la BHE subit des modifications, en termes d’étanchéité, d’expression de transporteurs, de mécanismes de transport, et si, dans ce cas, il y a une modification du transport du peptide Abeta à travers la BHE altérée. Nous avons d’abord montré que des transporteurs ABC et SLC étaient respectivement impliqués dans l’efflux et l’influx des peptides Abeta à travers la BHE. Concernant l’efflux, outre l’Abcb1, nous avons montré qu’Abcg2 et Abcg4 étaient impliquées dans la clairance cérébrale des peptides Abeta. Concernant l’influx, nous avons montré qu’Oatp1a4 pourrait jouer un rôle important dans la pénétration cérébrale des peptides Abeta. De plus, Abca1, principal transporteur ABC impliqué dans le transport du cholestérol, régule indirectement les taux cérébraux d’Abeta. En particulier, nous avons identifié la L-thyroxine et la rosuvastatine comme de puissants inhibiteurs respectifs de l’efflux et de l’influx cérébral d’Abeta. L’ensemble de ces transporteurs d’influx et d’efflux fixe ainsi la clairance cérébrale des peptides Abeta à travers la BHE. Or ces transporteurs sont régulés chez les souris 3xTg-AD (modèle de souris triple transgénique pour la MA exprimant à la fois les pathologies amyloïde et tau), dans des phases précoces et/ou tardives de la MA. Précocement, l’expression de Rage et d’Abca1 sont fortement augmentées au niveau de la BHE chez les souris 3xTg-AD. L’augmentation de Rage dès l’âge de 3 mois laisse supposer une augmentation très précoce de l’influx du peptide Abeta à travers la BHE. Mais cet influx semble être contre-balancé par l’augmentation concomitante d’Abcg4. Quant à Abca1, ne transportant pas directement le peptide Abeta, le rôle de son augmentation graduelle au cours du développement de la MA reste à déterminer. L’ensemble de ces régulations n’étant pas suffisantes pour empêcher l’accumulation cérébrale d’Abeta, des régulations plus tardives semblent se mettre en place, avec notamment l’augmentation de l’expression d’Abcb1 et d’Abcg2, et la diminution d’Oatp1a4. Ces mécanismes semblent donc correspondre à des phénomènes compensatoires ayant pour objectif d’augmenter la clairance cérébrale d’Abeta. Enfin, nous avons montré que l’intégrité physique de la BHE n’était pas altérée chez ces souris 3xTg-AD âgées de 3 à 18 mois. De plus, nos résultats ont montré que le volume vasculaire était diminué de manière précoce, notamment au niveau de l’hippocampe, chez les souris 3xTg-AD par rapport à leurs contrôles. Ce phénomène n’a pas été retrouvé chez les souris APP/PS1 n’exprimant que la pathologie amyloïde. Ces résultats suggèrent un rôle causal et précoce de la protéine tau hyperphosphorylée dans la pathologie de la MA. En conclusion, nos résultats soulignent l’importance de la BHE dans la physiopathologie de la MA. Ce travail de thèse ouvre des perspectives thérapeutiques, mais aussi des pistes pour la compréhension des mécanismes conduisant à une régulation de ces systèmes de transport dans la MA. / Recent studies in Alzheimer's disease (AD) patients have suggested an important role of cerebral clearance of Abeta peptide in the pathogenesis of AD. The blood-brain barrier (BBB) represents a major pathway for exchanges of Abeta between the brain and the peripheral circulation. Many transporters are expressed at the BBB, such as the ABC (ATP-Binding Casette) and SLC (Solute Carriers) proteins. It has been shown that the influx of Abeta peptide across the BBB was partially mediated by the receptor RAGE (Receptor for Advanced Glycation End products) and its efflux by the LRP-1 receptor (low density lipoprotein receptor-related protein 1). On the other hand, the involvement of ABC/SLC transporters in the brain efflux/influx of Abeta peptide has been suggested. It was therefore important to characterize the ABC/SLC transporters involved in the transport of Abeta peptide across the BBB. In addition, the disorders of the BBB have always been suggested in neurodegenerative diseases. The question is whether, in the context of AD, the BBB undergoes changes in terms of integrity, expression of transporters, transport mechanisms, and if, in this case, there is a change in the transport of Abeta peptide across the impaired BBB. We first showed that the BBB regulated the exchange of blood-brain Abeta peptides. Thus, the involvement of efflux (ABCG2 and ABCG4) and influx (Oatp1a4) transporters allows this equilibrium of Abeta peptides between the blood and the brain parenchyma. In addition, ABCA1, the main ABC transporter involved in cholesterol transport, regulates indirectly the brain levels of Abeta. We also identified the L-thyroxine and rosuvastatin as potent inhibitors of the efflux and influx transport of brain Abeta, respectively. All these influx and efflux transporters could control the transport of Abeta peptide across the BBB. However, these transporters are regulated in 3xTg-AD mice (triple transgenic mouse model for AD expressing both amyloid and tau pathologies) in the early and/or late stages of AD. Early, the expression of Abca1 and Rage are strongly increased at the BBB in 3xTg-AD mice. The high expression levels of Rage at the age of 3 months suggest an early increase in the influx transport of Abeta peptide across the BBB. But this increase seems to be compensated by the concomitant increase of Abcg4. As Abca1 does not directly mediate the transport of Abeta peptide, the role of its gradual increase in the development of AD remains to be determined. As all these regulations are not sufficient to prevent the accumulation of cerebral Abeta, the late regulations seem to develop, including increased expression of Abcb1 and Abcg2, and decreased expression of Oatp1a4. These mechanisms seem to correspond to compensatory phenomena with the objective to increase the cerebral clearance of Abeta. Finally, we have shown that the physical integrity of the BBB was not altered in 3xTg-AD mice aging from 3 to18 months. In addition, our results showed that the cerebral vascular volume was reduced early, especially in the hippocampus of 3xTg-AD mice compared to their age-matched controls. This phenomenon was not found in APP/PS1 mice expressing only the amyloid pathology. These results suggest a causal and early role of hyperphosphorylated tau in AD pathology.In conclusion, our results show the importance of the BBB and particularly of Abcg2, Abcg4 and Oatp1a4 transporters in the pathophysiology of AD. Knowledge of these transporters not only opens up therapeutic or prophylactic purposes, but also leads to the further understanding of the regulation mechanisms of these transport systems in AD.

Barrière hémato-encéphalique

ATP-binding Cassette

Solute carrier

Maladie d’Alzheimer

Bêta-amyloïde

Tau hyperphosphorylée

Cholestérol

Abcb1

Abcg2

Abcg4

Abca1

Oatp1a4

Rage

Blood-brain barrier

ATP-binding Cassette

Solute carrier

Alzheimer’s disease

Amyloid-beta

Hyperphosphorylated tau

Cholestérol

Abcb1

Abcg2

Abcg4

Abca1

Oatp1a4

Rage