618 resultados para ALZHEIMERS
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Brain tissue from so-called Alzheimer's disease (AD) mouse models has previously been examined using H-1 NMR-metabolomics, but comparable information concerning human AD is negligible. Since no animal model recapitulates all the features of human AD we undertook the first H-1 NMR-metabolomics investigation of human AD brain tissue. Human post-mortem tissue from 15 AD subjects and 15 age-matched controls was prepared for analysis through a series of lyophilised, milling, extraction and randomisation steps and samples were analysed using H-1 NMR. Using partial least squares discriminant analysis, a model was built using data obtained from brain extracts. Analysis of brain extracts led to the elucidation of 24 metabolites. Significant elevations in brain alanine (15.4 %) and taurine (18.9 %) were observed in AD patients (p ≤ 0.05). Pathway topology analysis implicated either dysregulation of taurine and hypotaurine metabolism or alanine, aspartate and glutamate metabolism. Furthermore, screening of metabolites for AD biomarkers demonstrated that individual metabolites weakly discriminated cases of AD [receiver operating characteristic (ROC) AUC <0.67; p < 0.05]. However, paired metabolites ratios (e.g. alanine/carnitine) were more powerful discriminating tools (ROC AUC = 0.76; p < 0.01). This study further demonstrates the potential of metabolomics for elucidating the underlying biochemistry and to help identify AD in patients attending the memory clinic
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INTRODUCTION:Cerebral small-vessel disease has been implicated in the development of Alzheimer’sdisease (AD). The retinal microvasculature enables non-invasive visualization andevaluation of the systemic microcirculation. We evaluated retinal microvascular parametersin a case-control study of AD patients and cognitively-normal controls.
METHODS:Retinal images were computationally analyzed and quantitative retinal parameters (caliber,fractal dimension, tortuosity, and bifurcation) measured. Regression models were used tocompute odds ratios (OR) and confidence intervals (CI) for AD with adjustment forconfounders.
RESULTS:Retinal images were available in 213 AD participants and 294 cognitively-normal controls.Persons with lower venular fractal dimension (OR per standard deviation [SD] increase, 0.77[CI: 0.62–0.97]) and lower arteriolar tortuosity (OR per SD increase, 0.78 [CI: 0.63–0.97])were more likely to have AD following appropriate adjustment.
DISCUSSION:Patients with AD have a sparser retinal microvascular network and retinal microvascularvariation may represent similar pathophysiological events within the cerebralmicrovasculature of patients with AD.
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Aim: Substantial evidence links atherosclerosis and Alzheimer's disease (AD). Apolipoproteins, such as apolipoprotein E, have a causal relationship with both diseases. The rs11136000 SNP within the CLU gene, which encodes clusterin (apolipoprotein J), is also associated with increased AD risk. The aim of this study was to investigate the relationship between plasma clusterin and the rs11136000 genotype in mild cognitive impairment (MCI) and AD.
Methods: Plasma and DNA samples were collected from control, MCI and AD subjects (n=142, 111, 154, respectively). Plasma clusterin was determined by ELISA and DNA samples were genotyped for rs11136000 by TaqMan assay.
Results: Plasma clusterin levels were higher in MCI and AD subjects vs. controls (222.3 +/- 61.3 and 193.6 +/- 58.2 vs. 178.6 +/- 52.3 mu g/ml, respectively; p
Conclusion: This study examined control, MCI and AD subjects, identifying for the first time that plasma clusterin levels were influenced, not only by the presence of AD, but also the transitional stage of MCI, while rs11136000 genotype only influenced plasma clusterin levels in the control group. The increase in plasma clusterin in MCI and AD subjects may occur in response to the disease process and would be predicted to increase binding capacity for amyloid-beta peptides in plasma, enhancing their removal from the brain.
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Background: Late-onset Alzheimer's disease (AD) is heritable with 20 genes showing genome-wide association in the International Genomics of Alzheimer's Project (IGAP). To identify the biology underlying the disease, we extended these genetic data in a pathway analysis.
Methods: The ALIGATOR and GSEA algorithms were used in the IGAP data to identify associated functional pathways and correlated gene expression networks in human brain.
Results: ALIGATOR identified an excess of curated biological pathways showing enrichment of association. Enriched areas of biology included the immune response (P = 3.27 X 10(-12) after multiple testing correction for pathways), regulation of endocytosis (P = 1.31 X 10(-11)), cholesterol transport (P = 2.96 X 10(-9)), and proteasome-ubiquitin activity (P = 1.34 X 10(-6)). Correlated gene expression analysis identified four significant network modules, all related to the immune response (corrected P = .002-.05).
Conclusions: The immime response, regulation of endocytosis, cholesterol transport, and protein ubiquitination represent prime targets for AD therapeutics. (C) 2015 Published by Elsevier Inc. on behalf of The Alzheimer's Association.
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The pathogenesis of Alzheimer's disease (AD) is complex involving multiple contributing factors. The extent to which AD pathology impacts upon the metabolome is still not understood, nor is it known how disturbances change as the disease progresses. For the first time we have profiled longitudinally (6, 8, 10, 12 and 18 months) both the brain and plasma metabolome of APP/PS1 double transgenic and wild type (WT) mice. A total of 187 metabolites were quantified using a targeted metabolomics methodology. Multivariate statistical analysis produced models that distinguished APP/PS1 from WT mice at 8, 10 and 12 months.Metabolic pathway analysis found perturbed polyamine metabolism in both brain and blood plasma. There were other disturbances in essential amino acids,branched chain amino acids and also in the neurotransmitter serotonin.Pronounced imbalances in phospholipid and acylcarnitine homeostasis was evident in two age groups. AD-like pathology therefore impacts greatly on both the brain and blood metabolomes, although there appears to be a clear temporal sequence whereby changes to brain metabolites precede those in blood.
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Transdermal drug delivery is an attractive route of drug administration, however there are relatively few marketed transdermal products. To increase delivery across the skin, strategies to enhance skin permeability are widely investigated, with microneedles demonstrating particular promise. Hydrogel-forming microneedles are inserted into the skin, and following dissolution of a drug loaded reservoir and movement of the drug through the created channels, the microneedle array is removed intact, and can then be readily and safely discarded. This study presents the formulation and evaluation of an integrated microneedle patch containing the Alzheimer's drug, donepezil hydrochloride. The integrated patch consisted of hydrogel-forming microneedles in combination with a donepezil hydrochloride containing film. Formulation and characterisation of plasticised films, prepared from poly(vinylpyrrolidone) or poly (methyl vinyl ether co-maleic anhydride/acid) (Gantrez(®)) polymers, is presented. Furthermore, in vitro permeation of donepezil hydrochloride across neonatal porcine skin from the patches was investigated, with 854.71 μg ± 122.71 μg donepezil hydrochloride delivered after 24 h, using the optimum patch formulation. Following administration of the patch to an animal model, plasma concentrations of 51.8 ± 17.6 ng/mL were obtained, demonstrating the success of this delivery platform for donepezil hydrochloride.
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β-Site amyloid precursor protein cleaving enzyme (BACE1) is the rate-limiting enzyme for production of Aβ peptides, proposed to drive the pathological changes found in Alzheimer’s disease (AD). Reticulon 3 (RTN3) is a negative modulator of BACE1 (β-secretase) proteolytic activity, while peptidylprolyl isomerase (cyclophilin)-like 2 (PPIL2) positively regulated BACE1 gene expression in a cell-based assay. This study aimed to analyze RTN3 and PPIL2 mRNA levels in four brain regions from individuals with AD and controls. BACE1 mRNA had been previously quantified in the samples, as had glial fibrillary acidic protein (GFAP) and neuron-specific enolase (NSE), to track changing cell populations in the tissue. mRNA levels in the human post mortem brain tissue were assayed using quantitative real-time polymerase chain reaction (qPCR) and qbasePLUS, employing validated stably expressed reference genes. No differences in RTN3 or PPIL2 mRNA levels were found in individuals with AD, compared to controls. Both RTN3 and PPIL2 mRNA levels correlated significantly with BACE1 mRNA and all three showed similar disease stage-dependent changes with respect to NSE and GFAP. These findings indicated that the in vitro data demonstrating an effect of PPIL2 on BACE1 expression have functional relevance in vivo. Further research into BACE1-interacting proteins could provide a fruitful approach to the modulation of this protease and consequently Aβ production.
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Disturbed lipid metabolism is a well-established feature of human Alzheimer's disease (AD). The present study used gas chromatography-mass spectrometry (GC-MS) analysis of fatty acid methyl esters (FAMES) to profile all detectable fatty acid (FA) species present in post-mortem neocortical tissue (Brodmann 7 region). Quantitative targeted analysis was undertaken from 29 subjects (n=15 age-matched controls; n=14 late-stage AD). GC-MS analysis of FAMES detected a total of 24 FAs and of these, 20 were fully quantifiable. The results showed significant and wide ranging elevations in AD brain FA concentrations. A total of 9 FAs were elevated in AD with cis-13,16-docosenoic acid increased most (170%; P=0.033). Intriguingly, docosahexanoic acid (DHA; C22:6) concentrations were elevated (47%; P=0.018) which conflicts with the findings of others (unaltered or decreased) in some brain regions after the onset of AD. Furthermore, our results appear to indicate that subject gender influences brain FA levels in AD subjects (but not in age-matched control subjects). Among AD subjects 7 FA species were significantly higher in males than in females. These preliminary findings pinpoint FA disturbances as potentially important in the pathology of AD. Further work is required to determine if such changes are influenced by disease severity or different types of dementia.
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The ‘dementia friends’ programme was launched by the Alzheimer’s Society in the UK two years ago with the purpose of educating members of the public about the things they can do which can enhance the lives of people living with dementia. The aim of this project was to deliver a two-hour ‘Dementia Friendly Community Workshop’ written by the Alzheimer’s Society, to an entire cohort of first-year undergraduate nursing students in one Higher Education Institutions in Northern Ireland. Following delivery of the programme, students were asked to complete a short questionnaire on their knowledge and confidence in relation to dementia care before and after the Dementia Friendly Community programme. A total of 322 undergraduate first-year nursing students took part in the Dementia Friendly Community programme. Of these, 304 returned questionnaires; 31.25% of students stated their perceived improvement in dementia knowledge was ‘good’ while 49.01% stated their perceived improvement in dementia knowledge was ‘very good’ and 13.49% stated their perceived improvement in dementia knowledge was ‘excellent’. In relation to confidence in engaging with people with dementia, 31.91% stated ‘good’ improvement, 40.79% stated ‘very good’ improvement and 11.84% stated ‘excellent’ improvement. The Dementia Friendly Community programme was positively reviewed by the undergraduate students as it enhanced knowledge and confidence in relation to care of someone living with dementia.
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Este estágio foi realizado em clínica de animais de companhia. Observou e acompanhou-se tanto consultas com carácter preventivo como de clínica médica e cirúrgica. As consultas de medicina preventiva consistiram essencialmente em vacinações e desparasitações, enquanto outras foram meramente informativas. As consultas de clínica médica incidiram em diversas áreas, incluíndo dermatologia, gastroenterologia e cardiologia. As cirurgias efetuadas foram sobretudo eletivas, mas também se assistiu a cirurgias corretivas. Um dos casos observados foi um cão com disfunção cognitiva. Este foi o caso escolhido para ser alvo do estudo mais aprofundado que é apresentado na segunda secção deste relatório. A disfunção cognitiva canina é o equivalente à doença humana de Alzheimer. Esta condição é relativamente desconhecida e os seus sinais clínicos são frequentemente considerados normais da idade. No entanto, quando detetada e tratada atempadamente é possível abrandar a sua evolução, devendo os proprietários de cães afetados ser sensibilizados a procurar assistência profissional; Internship in small animal practice: canine cognitive dysfunction syndrome Abstract: This internship was conducted in small animal clinic. The attended appointments consisted mostly of cases of preventive and internal medicine and also surgical assistance. The appointments of preventive medicine included vaccinations, deworming and some merely informative sessions. The cases of internal medicine concerned areas such as dermatology, gastroenterology and cardiology. The surgical interventions were mainly optional but also corrective procedures. One of the observed cases was a dog with cognitive dysfunction. This case was elected to be the target of further study which is presented in the second section of this report. The canine cognitive dysfunction is the equivalent to the human Alzheimer’s disease. This condition is still largely unknown and its clinical presentation is often considered normal of aging. However, if detected and treated early it is possible to slow down its progress, thus the owners of affected dogs should be encouraged to seek professional assistance.
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Inúmeras potenciais funções foram sugeridas para a APP (Proteína Precursora de Amilóide de Alzheimer), contudo, fisiologicamente, a função precisa da APP não foi ainda desvendada. A APP tem características consistentes com a função de molécula-receptora, capaz de reconhecer sinais extracelulares. Também relevante para este trabalho, é o facto de que a sinalização através de RIP (Proteólise Intramembranar Regulada) tem consequências na expressão génica, como no caso da sinalização tipo-Notch. Tal como a proteína Notch, a APP é processada resultando num fragmento C-terminal designado por AICD (Domínio Intracelular da APP). Neste trabalho é focado o papel importante na sinalização nuclear desempenhado pelo fragmento AICD, especificamente através da interacção com proteínas adaptadoras, promovendo a transcrição. Com o objectivo de contribuir para uma melhor compreensão da base molecular da DA (Doença de Alzheimer), torna-se importante investigar as vias de localização nuclear do AICD e o seu envolvimento na transcrição génica, possivelmente afectando proteínas até agora não associadas à DA. Por estes motivos é fundamental a identificação de novas proteínas que interajam com a APP. Um rastreio foi efectuado, utilizando o sistema Dois-Híbrido em Levedura, para identificar interacções específicas do AICD no cérebro humano e, assim, caracterizar o interactoma do AICD. Foi feito o rastreio de aproximadamente 1.1x108 clones de uma biblioteca de cDNA de cérebro humano com o domínio C-terminal da APP com a mutação Y687E, que mimetiza o estado fosforilado. De experiências anteriores deste laboratório sabemos que a tirosina-687 afecta a localização subcelular da APP e é também consensual que a fosforilação é importante nos mecanismos de transdução de sinais, daí a utilização deste mutante parecer apropriada. O rastreio originou 55 clones positivos que foram analisados para identificar proteínas que interagem com a APP. Dois clones são particularmente importantes, a RanBPM e a Transportin-SR2, visto que estão associadas ao transporte de proteínas para o núcleo e confirmam a sinalização nuclear da APP. ABSTRACT: Many putative functions for APP (Alzheimer’s amyloid precursor protein) have been suggested, although the precise physiological function of APP remains to be elucidated. APP has characteristics consistent with it having a role as a receptor, capable of mediating extracellular signals. Also of relevance to the work described here is that RIP (Regulated Intramembrane Proteolysis) signalling can have consequences in gene expression, similar to Notch signalling. Like the latter, APP is processed by RIP resulting in a C-terminal fragment known as AICD. Here we test the hypothesis that the AICD fragment may play an important role in nuclear signalling, specifically by interacting with adaptor proteins potentiating transcription. Therefore, in order to contribute to our understanding of the molecular basis of AD (Alzheimer’s disease) it is important to investigate the pathways of AICD nuclear targeting and its involvement in gene transcription, possibly affecting other proteins hitherto not associated with AD. Thus, it is important to identify AICD binding proteins. A Yeast Two-Hybrid (YTH) screen was performed to identify human brainspecific AICD binding proteins, and thus characterize the AICD interactome. The screen of approximately 1.1 x108 clones from a human brain cDNA library was carried out using the AICD fragment with an Y687E mutation, which mimics phosphorylation on that residue. From previous work carried out in the laboratory we know that tyrosine-687 phosphorylation affects subcellular localization of APP, and it is also recognized that phosphorylation events are important in signal transduction mechanisms, hence the use of this mutant is appropriate. The YTH screen yielded 55 positive clones that were analysed and several novel brain-specific APP binding proteins were identified. Two clones were particularly important, RanBPM and Transportin-SR2, being that they are associated with the nuclear transport of proteins, and support the nuclear signalling for APP.
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A doença de Alzheimer (DA) é uma desordem neurodegenerativa progressiva patologicamente caracterizada pela presença de placas de amilóide (placas senis) insolúveis e também pela presença de tranças neurofibrilhares,formadas pela proteína Tau hiperfosforiladada. O principal constituinte das placas senis é o peptídeo beta-amilóide (Ab), que deriva do processamento proteolítico da proteína precursora de amilóide de Alzheimer (APP). Embora Ab exista como um agregado pouco solúvel nas placas senis, ele é secretado pelas células como uma molécula solúvel. O Ab “per se” pode afectar o metabolismo da APP. Alguns autores sugerem que o Ab exerce o seu efeito alterando o processamento ou catabolismo da APP, outros sugerem que ele também induz a transcrição da APP, onde aumentando os níveis da APP pode estar a contribuir para a sua própria produção (mecanismo de “feedback” positivo). Assim sendo, torna-se difícil consolidar todas estas observações e identificar as potenciais funções fisiológicas do Ab “in vivo”, ou as consequências da sua produção. Neste trabalho caracterizaram-se os efeitos do Ab no metabolismo da APP. Os nossos estudos revelaram que um dos mecanismos induzidos pelo Ab é a acumulação intracelular do fragmento neuroprotector sAPP (isAPPa) em estruturas com características vesiculares associadas ao citosqueleto. Estudos adicionais em culturas primárias revelaram que o Ab estava a exercer o seu efeito ao nível da secreção vesicular, provavelmente interferindo com o transporte de APP/sAPP ao longo da rede do citosqueleto. Esta hipótese é sustentada pelo facto do Ab estar a afectar a estabilidade e a polimerização de proteínas envolvidas na dinâmica do citosqueleto. Contrariamente a publicações anteriores o Ab não induziu a transcrição da APP, na verdade em culturas primárias neuronais foi observado uma diminuição nos níveis de expressão da APP. Isto foi acompanhado por um aumento nos fragmentos C-terminais da APP (CTFs) e uma diminuição na localização nuclear do seu domínio intracelular (AICD), sugerindo alterações na sinalização nuclear da APP. O Ab pode afectar outras vias de sinalização, particularmente alterando o balanço entre as actividades das proteínas cinases e fosfatases, o que pode ter consequências para o desenvolvimento da doença. Os dados obtidos indicam que o Ab é capaz de inibir a actividade da proteína fosfatase1, a sua importância numa perspectiva de futuras terapias é discutida. Devido à relevância da agregação do Ab para a sua toxicidade, a formação de complexos com proteínas que promovem a sua desagregação/degradação e o seu efeito no processamento da APP foi avaliado. Na presença destes complexos observou-se uma reversão da acumulação isAPP, demonstrando o potencial terapêutico destas proteínas como moduladores do metabolismo da APP. Este trabalho permitiu compreender melhor os mecanismos envolvidos nos efeitos do Ab no processamento da APP e descobrir algumas moléculas que podem ser relevantes numa perspectiva de diagnóstico e terapia na DA.
