Cognitive Reserve Relates to Functional Network Efficiency in Alzheimer’s Disease

Alzheimer’s disease (AD) is the most common form of dementia, with no means of cure or prevention. The presence of abnormal disease-related proteins in the population is, in turn, much more common than the incidence of dementia. In this context, the cognitive reserve (CR) hypothesis has been proposed to explain the discontinuity between pathophysiological and clinical expression of AD, suggesting that CR mitigates the effects of pathology on clinical expression and cognition. fMRI studies of the human connectome have recently reported that AD patients present diminished functional efficiency in resting-state networks, leading to a loss in information flow and cognitive processing. No study has investigated, however, whether CR modifies the effects of the pathology in functional network efficiency in AD patients. We analyzed the relationship between CR, pathophysiology and network efficiency, and whether CR modifies the relationship between them. Fourteen mild AD, 28 amnestic mild cognitive impairment (aMCI) due to AD, and 28 controls were enrolled. We used education to measure CR, cerebrospinal fluid (CSF) biomarkers to evaluate pathophysiology, and graph metrics to measure network efficiency. We found no relationship between CR and CSF biomarkers; CR was related to higher network efficiency in all groups; and abnormal levels of CSF protein biomarkers were related to more efficient networks in the AD group. Education modified the effects of tau-related pathology in the aMCI and mild AD groups. Although higher CR might not protect individuals from developing AD pathophysiology, AD patients with higher CR are better able to cope with the effects of pathology—presenting more efficient networks despite pathology burden. The present study highlights that interventions focusing on cognitive stimulation might be useful to slow age-related cognitive decline or dementia and lengthen healthy aging

Development of methods to access phospholipase A2 fraction activity in platelets

A fosfolipase A2 (PLA2) é uma enzima chave no metabolismo dos fosfolípides de membrana e é um dos principais componentes envolvidos na sinalização celular. Alterações da atividade da PLA2 tem sido descritas no cérebro e no sangue (soro, plasma e plaquetas) de pacientes com diversas doenças neuropsiquiátricas. Neste estudo foi desenvolvido um ensaio radioenzimático para detectar em plaquetas, a atividade dos três principais grupos de PLA2, que são PLA2 secretórias ou PLA2 extracelular dependente de Ca 2+ (sPLA2); PLA2 citósólicas dependentes de Ca 2+ (cPLA2) e as PLA2 intracelulares independentes de Ca 2+ (iPLA2). Para confirmar a presença desses grupos da enzima em plaquetas, algumas variáveis foram testadas, como as diferenças de preferência ao ácido graxo como substrato, o requerimento de cálcio e a inibição seletiva com os inibidores Bromoenol lactone (BEL) e o Methyl Arachidonyl Fluorophosphonate (MAFP). Os resultados obtidos demonstram a presença dos três principais grupos de PLA2 (sPLA2, cPLA2, and iPLA2) em plaquetas. Estes achados sugerem o uso de plaquetas, uma amostra biológica de fácil acesso, como possível modelo periférico de neurônios para o estudo do metabolismo de fosfolípides.Phospholipase A2 (PLA2) is a key-enzyme in the metabolism of membrane phospholipids and is one of the major components involved in cell signaling. Alterations of PLA2 activity have been reported in brains and blood cells in several neuropsychiatric diseases. In this study we developed a radio-enzymatic assay to detect in platelets the activity of the three main groups of PLA2, which are secretory PLA2 or extracellular calcium dependent PLA2 (sPLA2), cytosolic calcium dependent PLA2 (cPLA2) and intracellular calcium independent PLA2 (iPLA2). To confirm the presence of these PLA2 groups some variables were tested, such as differences in the preferred fatty acid substrate, calcium dependence, and selective inhibition with Bromoenol lactone (BEL) and Methyl Arachidonyl Fluorophosphonate (MAFP). Our findings demonstrate the presence of the three main groups of PLA2 (sPLA2, cPLA2, and iPLA2) in platelets. In addition, this study is in line with others suggesting that platelets, a typical biological sample, can be used as a peripheral model for neurons

Biomarkers in Alzheirmer\'s disease: GSK3B and PLA2 in response to cholinesterase inhibitors

A Doença de Alzheimer (DA) é uma desordem neurodegenerativa progressiva que causa comprometimento cognitivo e demência. O diagnóstico é baseado em parâmetros clínicos, mas sua confirmação é post-mortem, após avaliação patológica durante a autópsia. Os tratamentos disponíveis para a DA são os inibidores da colinesterase (IChEs) e os antagonistas de receptores de N-metil-D-aspartato (NMDA), sendo que os IChEs compõe o principal grupo. Diversos estudos tem mostrado um efeito neuroprotetor dos IChEs, levando a alterações na patogênese da DA. Avaliar e mensurar essas alterações são papeis atribuídos aos biomarcadores. Neste sentido podemos destacar a fosfolipase A2 (PLA2), a principal responsável pelo metabolismo de fosfolípides de membrana, e que tem sido achada diminuída na DA, assim como a glicogênio sintase-quinase (GSK), responsável pela fosforilação da proteína Tau, que é um dos processos alterados na DA. O objetivo deste trabalho foi avaliar o efeito do tratamento com IChE sobre a atividade da PLA2 e expressão da GSK3B em plaquetas de 30 pacientes com DA após 3 e 6 meses de tratamento. Como grupo controle foram investigados 42 individuos idosos sem doença neurodegenerativa. Encontramos nos pacientes com DA antes do tratamento uma diminuição da atividade da iPLA2 quando comparada ao grupo controle. Após três e seis meses de tratamento a PLA2 aumentou, voltando ao nível dos controles. Os pacientes que apresentaram um aumento maior da iPLA2 apos 3 meses de tratamento apresentaram melhora cognitiva mais marcante após seis meses de tratamento, avaliado pelo CAMCOG. Apos 6 meses de tratamento encontramos um inativação da GSK3B, medida por um aumento em sua forma fosforilada. Nossos resultados sugerem que o donepezil apresenta propriedades modificadoras na doença de Alzheimer, e ainda que a medida da atividade da iPLA2 poderia ser usada como marcador de resposta terapêutica ao donepezil e, possivelmente, a outros IChEs, na doença de AlzheimerAlzheimer\'s disease (AD) is a progressive neurodegenerative disorder that causes dementia and cognitive impairment. The Diagnosis is based on clinical parameters, but confirmation is post-mortem after pathologic evaluation during autopsy. The treatments available for AD are cholinesterase inhibitors (IChEs) and N-methyl-D-aspartate (NMDA) antagonists. The main group comprises the IChEs. Several studies have shown a neuroprotective effect of IChEs, leading to alterations in the pathogenesis of AD. Evaluate and measure these changes are assigned to biomarkers. In this regard we can highlight the phospholipase A2 (PLA2) the main enzyme in membrane phospholipids metabolism and that has been found decreased in AD as well as Glycogen Synthase kinase (GSK), a major responsible for tau phosphorylation which is one processes altered in AD. The objective of this study was to evaluate the effect of treatment with IChE on PLA2 activity and GSK3B expression in platelet of 30 AD patients after 3 and 6 months of treatment. The control group comprised 42 elderly individuals without neurodegenerative disease The results obtained were a decreased iPLA2 activity in patients with AD before treatment as compared to controls. After 3 and 6 months of treatment, we observed a significant increase in iPLA2 activity, restoring enzymatic activity similar to that observed among control. The patients who showed higher iPLA2 activity in the first three months were those showing cognitive improvement after six months of treatment, measured by CAMCOG. After 6 months of treatment a GSK3B inactivation were found, measured by an increase in its phosphorylated form. Our results suggest that donepezil present modifying properties in Alzheimer disease and that iPLA2 activity measurement could be used as a marker of therapeutic response to donepezil and possibly other IChEs in Alzheimer\'s diseas

Higher proportion of inactive Gsk3β in platelets of elderly patients with bipolar disorder: an effect of treatment?

Objective: It has been postulated that mood stabilizers inhibit glycogen synthase kinase 3-beta (Gsk3β) activity, mainly through its phosphorylation on serine-9 (Ser9). However, in vivo studies addressing Gsk3β activity in patients with bipolar disorder are scarce. Here, we compare Gsk3β inactivation (as indicated by Ser9-phosphorylation) in platelets of elderly patients with bipolar disorder undergoing clinical treatment and healthy elderly adults not taking medication. Methods: Platelet samples were obtained from 37 elderly adults (bipolar disorder = 19, controls = 18). Relative changes in Gsk3β inactivation was estimated by comparing the ratios of phosphorylated Gsk3β to total Gsk3β (p-Gsk3β Ser9/Gsk3β) between the disease and control groups. Results: Phosphorylated-Gsk3β (p < 0.001) and the p-Gsk3β Ser9/Gsk3β ratio (p = 0.006) were elevated in bipolar patients. In the bipolar disorder group, p-Gsk3β Ser9/Gsk3β was positively correlated with serum lithium levels (r = 0.478, p = 0.039). Conclusions: Gsk3β inactivation is higher in this group of elderly adults undergoing treatment for bipolar disorder. However, whether the treatment or the disease causes Gsk3β inactivation was confounded by the lack of an unmedicated, bipolar control group and the non-uniform treatment regimens of the bipolar disorder group. Thus, further studies should help distinguish whether Gsk3β inactivation is an effect of drug treatment or an intrinsic characteristic of bipolar disorder

Increased soluble TNF receptor 2 in antidepressant-free patients with late-life depression

Increased pro-inflammatory state has been implicated in the pathophysiology of major depressive disorder. The aim of this study was to determine serum levels of INF-alpha and soluble TNF-alpha receptors 1 and 2 (sTNFR1 and sTNFR2) in anti-depressant free depressed elderly patients as compared to healthy controls. Sixty-seven older adults (28 with major depression and 39 controls) were enrolled to this study. Participants were assessed by the SCID and diagnosis of major depressive episode was made according to the DSM-IV criteria. Serum INF-alpha, 5TNFR1 and sTNFR2 were determined by ELISA. Anti-depressant free patients with late-life depression showed an increased level of the sTNFR2 as compared to controls (p = 0.03). No significant differences were found in serum INF-alpha and sTNFR1 levels (p = 0.1 and p = 0.4, respectively). There was no correlation between serum levels of these inflammatory markers and the severity of depression. Our findings provide additional evidence of the involvement of abnormal pro-inflammatory state in late-life depression. (c) 2010 Elsevier Ltd. All rights reserved.Rede Instituto Brasileiro de Neurociencia (IBN Net/Finep)Fundacao de Amparo a Pesquisa do Estado de So Paulo (FAPESP)[02/12633-7]Associacao Beneficente Alzira Denise Hertzog da Silva (ABADHS

Platelet GSK3B activity in patients with late-life depression: Marker of depressive episode severity and cognitive impairment?

Objective. Increased GSK3B activity has been reported as a state marker of major affective episodes in patients with depression and bipolar disorder. No study so far has addressed GSK3B activity in late-life depression. The aims of the present study were to determine GSK3B activity in platelets of elderly patients with major depression, and the association between GSK3B activity and the severity of depressive symptoms and cognitive impairment. Methods. Forty drug-free elderly patients with major depressive episode were compared to healthy older adults (n == 13). Severity of the depressive episode and current cognitive state were determined by the Hamilton Depression Scale (HAM-D) and the Cambridge Cognitive Test (CAMCOG), respectively. Total- and ser-9-phosphorylated GSK3B (tGSK3B and pGSK3B) were determined in platelets by enzyme immunometric assays (EIA). GSK3B activity was indirectly inferred by the GSK3B ratio (i.e. pGSK3B/tGSK3B). Results. Elderly depressed patients had significantly lower pGSK3B levels (P == 0.03) and GSK3B ratio (P == 0.03), indicating higher GSK3B activity. Higher GSK3B activity were observed in patients with severe depressive episode (HAM-D scores > 22, P == 0.03) and with cognitive impairment (CAMCOG scores < 86, P == 0.01). Conclusion. The present findings provide additional evidence of the involvement of GSK3B in the pathophysiology of late-life major depression. Higher GSK3B activity may be more relevant in those patients with more severe depressive symptoms and cognitive impairment.Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)[02/12633-7]Associacao Beneficente Alzira Denise Hertzog da Silva (ABADHS)CAPES, Brazi

Higher Serum sTNFR1 Level Predicts Conversion from Mild Cognitive Impairment to Alzheimer`s Disease

The activation of inflammatory cascades has been consistently demonstrated in the pathophysiology of Alzheimer`s disease (AD). Among several putative neuroinflammatory mechanisms, the tumor necrosis factor alpha (TNF-alpha) signaling system has a central role in this process. Recent evidence indicates that the abnormal production of inflammatory factors may accompany the progression from mild cognitive impairment (MCI) to dementia. We aimed to examine serum levels of TNF-alpha and its soluble receptors (sTNFR1 and sTNFR2) in patients with MCI and AD as compared to cognitively unimpaired elderly subjects. We further aimed to investigate whether abnormal levels of these cytokines predict the progression from MCI to AD upon follow-up. We utilized cross-sectional determination of serum levels of TNF-alpha, sTNFR1, and sTNFR2 (ELISA method) in a test group comprising 167 older adults (31 AD, 72 MCI, and 64 healthy controls), and longitudinal reassessment of clinical status after 18.9 +/- 10.0 months. At baseline, there were no statistically significant differences in serum TNF-alpha, sTNFR1, and sTNFR2 between patients with MCI and AD as compared to controls. Nevertheless, patients with MCI who progressed to AD had significantly higher serum sTNFR1 levels as opposed to patients who retained the diagnosis of MCI upon follow-up (p = 0.03). Cox regression analysis showed that high serum sTNFR1 levels predicted the conversion from MCI to AD (p = 0.003), whereas no significant differences were found with respect to serum levels of TNF-alpha and sTNFR2. Abnormal activation of TNF-alpha signaling system, represented by increased expression of sTNFR1, is associated with a higher risk of progression from MCI to AD.Rede Instituto Brasileiro de Neurociencia (IBN Net/Finep)Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)[02/12633-7]Associacao Beneficente Alzira Denise Hertzog da Silva (ABADHS