Influência do exercício físico em memória e funções executivas de pessoas com doença de Parkinson

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Obtenção de hibridos lapdesf fur-fd e atividade anti-inflamatória com potencial atividade neuroprotetora

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Análise comportamental e histológica de um modelo animal da doença de Parkinson em camundongos suíços

A Doença de Parkinson (DP) é uma das doenças neurodegenerativas mais comuns relacionadas com a idade, e apresenta sintomatologia com alterações motoras clássicas que estão relacionadas com a degeneração dos neurônios dopaminérgicos da SNpc e a diminuição de dopamina no estriado. Modelos animais da DP são instrumentos importantes utilizados por pesquisadores para uma maior compreensão de mecanismos patológicos envolvidos na doença e para a avaliação de possíveis intervenções terapêuticas. Tais modelos devem mimetizar algum aspecto da doença, como a degeneração dos neurônios dopaminérgicos nigrais. Neste contexto, o modelo da DP induzido pela injeção da neurotoxina 6- hidroxidopamina (6-OHDA) já se encontra bem estabelecido em ratos, mas necessita ainda de melhor caracterização das alterações comportamentais e lesões no sistema nigro-estriatal em camundongos de diferentes linhagens a fim de que haja interpretações confiáveis quando o modelo for usado em testes terapêuticos. O presente estudo teve como objetivo melhorar a caracterização do modelo unilateral da DP com 6-OHDA em camundongos suíços, avaliando alterações comportamentais e o efeito sobre os neurônios dopaminérgicos da SNpc. Nesta investigação utilizou-se uma única injeção intraestriatal unilateral de 6-OHDA, em duas diferentes concentrações da toxina: 5µg/µl e 10µg/µl. Os nossos resultados mostraram que ambas as concentrações utilizadas causaram perda severa de neurônios dopaminérgicos na SNpc, com uma média de 74,5% e 89,5% de per da, respectivamente. Esta perda apresentou uma correlação alta com o comportamento rotatório induzido por apomorfina e uma correlação baixa com a ambulação no teste do campo aberto. Desta forma, injeções intraestriatais de 5µg/µl ou 10µg/µl de 6-OHDA, em camundongos suíços, reproduzem de forma efetiva o modelo animal unilateral da DP com 6-OHDA, podendo ser utilizadas de forma confiável em experimentos que visem a investigação de terapias farmacológicas, celulares e/ou de neuroproteção para a DP.

Alterações oxidativas em portadores da doença de Alzheimer: correlação com os estágios da doença e o quadro cognitivo dos pacientes

A sobrevida da população tem aumentado de forma progressiva e atribui-se à melhoria da qualidade dos serviços de saúde e das condições gerais de vida, sendo marcante, sobretudo nos países industrializados. Este aumento da expectativa de vida repercute no aumento da incidência de doenças comuns em idades avançadas. O envelhecimento é considerado fator de risco para o desenvolvimento de doenças neurodegenerativas como a doença de Alzheimer (DA). Uma das teorias para a patogênese da DA postula que a neurodegeneração é o resultado de alterações no metabolismo oxidativo com acometimento do tecido cerebral vulnerável. O fato de o envelhecimento ser um fator de risco na DA, reforça também a hipótese da participação dos radicais livres, pois os efeitos de sua ação podem se acumular durante anos. A DA é uma doença insidiosa e progressiva e caracteriza-se clinicamente por uma perda progressiva da memória e de outras funções cognitivas, além de mudanças comportamentais e sociais. O déficit de memória é o principal e usualmente o primeiro sintoma da DA, com comprometimento especialmente da retenção e recordação de novas informações. O presente trabalho visa avaliar se ocorrem alterações no metabolismo oxidativo detectáveis no sangue de pacientes com a DA, e se estas podem ser relacionadas com os diferentes estágios da doença e com o quadro cognitivo dos pacientes. Foram avaliados 30 pacientes com a doença de Alzheimer e 28 indivíduos no grupo controle atendidos na Unidade de Ensino e Assistência de Fisioterapia e Terapia Ocupacional da Universidade do Estado do Pará (UEAFTO-UEPA). O metabolismo oxidativo foi avaliado através da medida da capacidade antioxidante total equivalente ao Trolox (TEAC) e da mensuração dos níveis das substâncias que reagem ao ácido tiobarbitúrico - TBARS. Também foram realizados testes neuropsicológicos em todos os sujeitos participantes do estudo. Não foram observadas correlações significativas no desempenho dos testes neuropsicológicos com os níveis de TBARS e TEAC nos pacientes com a DA. Observou-se que a capacidade antioxidante total (CAOT) estava significativamente diminuída nos pacientes com a DA em comparação com o grupo controle independentemente do estágio da doença, mostrando uma possível relação entre a CAOT e a DA. Na avaliação de TBARS houve uma tendência para maiores concentrações nos pacientes com DA do que no grupo controle, porém a diferença não foi estatisticamente significativa, apenas a fase moderada foi significativa quando comparada com o grupo controle. A avaliação da peroxidação lipídica através dos níveis de TBARS provavelmente não seria um biomarcador adequado para a doença de Alzheimer.

Polymeric Systems as Nanodevices for siRNA Delivery

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Efeitos da atividade física sobre equilíbrio, risco de quedas e função cognitiva de idosos com demência de Alzheimer: Salma Stéphany Soleman Hernandez. -

The Alzheimer’s dementia represents a clinical condition inherent to many chronic and neurodegenerative diseases that are usually related to a decline in the cognitive and physical functions. The objective of this experimental design research was to analyze the effects of a regular and systemized physical activity program over the cognitive functions, balance and risk of falls of elderly with Alzheimer’s Dementia (DA). The sample was made of 16 elderly with DA, distributed in two groups: a) intervention group – GI (9 subjects that had participated in a program of physical activity, that consisted of 3 weekly sessions of 60 minutes each, in alternated days and with a duration of 6 months); b) control group – GC (7 subjects that did not participate in the program of physical activity). Both groups maintained the doctoral and pharmacological assistance routine. The subjects passed through two different evaluations (pre and post-intervention) the questionnaire (Mini-exam of Mental State for cognitive functions) and motor tests (Berg Functional Balance Scale – EEFB, Timed Up-and-Go (TUG) time (TUGs) and steps (TUGp) and the test of agility and dynamic balance (AGILEQ) of the American Alliance for Health, Physical Education Recreation and Dance for elderly). The obtained results were, respectively in the pre and post-intervention moments: a) AGILEQ (GI = 39,1 ± 10,2 and 38,4 ± 8,9 and GC = 45,6 ± 16,7 and 59,9 ± 22,0 seconds) with the statistically interaction significant (ANOVA two-way; F1,14 = 32,07; p=0,01) between groups and moments; b) TUGs (GI = 9,8 ± 2,5 and 9,5 ± 3,3 and GC = 10,6 ± 4,5 and 12,7 ± 7,3 seconds) the test UMann Whitney did not appoint any significant differences between the groups in the post-intervention moment, however the analyzes of Wilcoxon evidenced a ...(Complete abstract click electronic access below)

Genetic variability of inflammatory genes in the brazilian population

Inflammatory gene variants have been associated with several diseases, including cancer, diabetes, vascular diseases, neurodegenerative diseases, arthritis, and others. Therefore, determining the population genetic composition of inflammation-related genes can be useful for the determination of general risk, prognostic and therapeutic strategies to prevent or cure specific diseases. We have aimed to identify polymorphism genotype frequencies in genes related to the inflammatory response in the Brazilian population, namely, IjBL - 62AT, IjBL - 262CT, tumor necrosis factors alpha (TNFa) - 238GA, TNFa - 308GA, lymphotoxin-alpha (LTa) + 80AC, LTa + 252AG, FAS - 670AG, and FASL - 844TC, considering the white, black, and Pardo ethnicities of the Sa˜o Paulo State. Our results suggest that the Brazilian population is under a miscegenation process at the current time, since some genotypes are not in the Hardy–Weinberg equilibrium. In addition, we conclude that the Pardo ethnicity is derived from a complex mixture of ethnicities, including the native Indian population.

Effects of lithium on the proliferation and migration of neuroblasts in the rostral migratory stream in adult mice

The discovery of neurogenesis in adult brains opened the possibility of cellular therapy strategies for the treatment of neurodegenerative diseases, such as Alzheimer’s disease. Neurogenesis in the adult brain occurs in two areas: subgranular zone of the hippocampus and subventricular zone (SVZ) of the lateral ventricles. Neurons that originate from the SVZ migrate to the olfactory bulb (OB) through the rostral migratory stream (RMS). In Alzheimer’s disease, there is a progressive neuronal dysfunction and degeneration, resulting in brain atrophy and cognitive impairments including olfactory dysfunction. Several studies have demonstrated that pharmacological treatment with lithium exerts positive effects on adult neurogenesis, and one pathway seems to be the modulation of factors that regulate the migration of neuroblasts. The objective of this study was to investigate whether treatment with lithium promotes the increase of migratory neuroblasts using as parameter the RMS. Adult male C57BL/6 mice were divided into control and lithium-treated groups. The animals were treated for 6 weeks and, at four different time points, i.e., 10 days, 7 days, 3 days and 1 day before the end of treatments, they received an injection of BrdU (cell proliferation marker). The animals were sacrificed by perfusion fixation and the brains were immunohistochemically labeled for BrdU for analysis of migrating neuroblasts in the RMS. The results showed that the number of BrdU+ cells in the RMS was not significantly different between the two groups, suggesting that lithium, alone, is not capable of increasing the number of neuroblasts migrating from the SVZ to the OB

Exercise and oxidative stress: p,otential effects of antioxidant dietary strategies in sports

Free radicals are produced during aerobic cellular metabolism and have key roles as regulatory mediators in signaling processes. Oxidative stress reflects an imbalance between production of reactive oxygen species and an adequate antioxidant defense. This adverse condition may lead to cellular and tissue damage of components, and is involved in different physiopathological states, including aging, exercise, inflammatory, cardiovascular and neurodegenerative diseases, and cancer. In particular, the relationship between exercise and oxidative stress is extremely complex, depending on the mode, intensity, and duration of exercise. Regular moderate training appears beneficial for oxidative stress and health. Conversely, acute exercise leads to increased oxidative stress, although this same stimulus is necessary to allow an up-regulation in endogenous antioxidant defenses (hormesis). Supporting endogenous defenses with additional oral antioxidant supplementation may represent a suitable noninvasive tool for preventing or reducing oxidative stress during training. However, excess of exogenous antioxidants may have detrimental effects on health and performance. Whole foods, rather than capsules, contain antioxidants in natural ratios and proportions, which may act in synergy to optimize the antioxidant effect. Thus, an adequate intake of vitamins and minerals through a varied and balanced diet remains the best approach to maintain an optimal antioxidant status. Antioxidant supplementation may be warranted in particular conditions, when athletes are exposed to high oxidative stress or fail to meet dietary antioxidant requirements. Aim of this review is to discuss the evidence on the relationship between exercise and oxidative stress, and the potential effects of dietary strategies in athletes. The differences between diet and exogenous supplementation as well as available tools to estimate effectiveness of antioxidant intake are also reported. Finally, we advocate the need to adopt an individualized diet for each athlete performing a specific sport or in a specific period of training, clinically supervised with inclusion of blood analysis and physiological tests, in a comprehensive nutritional assessment. (C) 2015 Elsevier Inc. All rights reserved.

Involvement of AMPK, IKβα-NFκB and eNOS in the sildenafil anti-inflammatory mechanism in a demyelination model

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Extrinsic Purinergic Regulation of Neural Stem/Progenitor Cells: Implications for CNS Development and Repair

There has been tremendous progress in understanding neural stem cell (NSC) biology, with genetic and cell biological methods identifying sequential gene expression and molecular interactions guiding NSC specification into distinct neuronal and glial populations during development. Data has emerged on the possible exploitation of NSC-based strategies to repair adult diseased brain. However, despite increased information on lineage specific transcription factors, cell-cycle regulators and epigenetic factors involved in the fate and plasticity of NSCs, understanding of extracellular cues driving the behavior of embryonic and adult NSCs is still very limited. Knowledge of factors regulating brain development is crucial in understanding the pathogenetic mechanisms of brain dysfunction. Since injury-activated repair mechanisms in adult brain often recapitulate ontogenetic events, the identification of these players will also reveal novel regenerative strategies. Here, we highlight the purinergic system as a key emerging player in the endogenous control of NSCs. Purinergic signalling molecules (ATP, UTP and adenosine) act with growth factors in regulating the synchronized proliferation, migration, differentiation and death of NSCs during brain and spinal cord development. At early stages of development, transient and time-specific release of ATP is critical for initiating eye formation; once anatomical CNS structures are defined, purinergic molecules participate in calcium-dependent neuron-glia communication controlling NSC behaviour. When development is complete, some purinergic mechanisms are silenced, but can be re-activated in adult brain after injury, suggesting a role in regeneration and self-repair. Targeting the purinergic system to develop new strategies for neurodevelopmental disorders and neurodegenerative diseases will be also discussed.

NADPH Oxidase and Neurodegeneration

NADPH oxidase (Nox) is a unique, multi-protein, electron transport system that produces large amounts of superoxide via the reduction of molecular oxygen. Nox-derived reactive oxygen species (ROS) are known to be involved in a variety of physiological processes, including host defense and signal transduction. However, over the past decade, the involvement of (Nox)-dependent oxidative stress in the pathophysiology of several neurodegenerative diseases has been increasingly recognized. ROS produced by Nox proteins contribute to neurodegenerative diseases through distinct mechanisms, such as oxidation of DNA, proteins, lipids, amino acids and metals, in addition to activation of redox-sensitive signaling pathways. In this review, we discuss the recent literature on Nox involvement in neurodegeneration, focusing on Parkinson and Alzheimer diseases.

Self assembly of human septin 2 into amyloid filaments

Septins are a conserved group of GTP-binding proteins that form hetero-oligomeric complexes which assemble into filaments. These are essential for septin function, including their role in cytokinesis, cell division, exocytosis and membrane trafficking. Septin 2 (SEPT2) is a member of the septin family and has been associated with neurofibrillary tangles and other pathological features of senile plaques in Alzheimer's disease. An in silico analysis of the amino acid sequence of SEPT2 identified regions with a significant tendency to aggregate and/or form amyloid. These were all observed within the GTP-binding domain. This was consistent with the experimental identification of a structure rich in beta-sheet during temperature induced unfolding transitions observed for both the full length protein and the GTP-binding domain alone. This intermediate state is characterized by irreversible aggregation and has the ability to bind Thioflavin-T, suggesting its amyloid nature. Under electron microscopy, fibers extending for several micrometers in length could be visualized. The results shown in this study support the hypothesis that single septins, when present in excess or with unbalanced stoichiometries, may be unstable and assemble into amyloid-like structures. (C) 2011 Elsevier Masson SAS. All rights reserved.

Targeting aldehyde dehydrogenase 2: new therapeutic opportunities

A family of detoxifying enzymes called aldehyde dehydrogenases (ALDHs) has been a subject of recent interest, as its role in detoxifying aldehydes that accumulate through metabolism and to which we are exposed from the environment has been elucidated. Although the human genome has 19 ALDH genes, one ALDH emerges as a particularly important enzyme in a variety of human pathologies. This ALDH, ALDH2, is located in the mitochondrial matrix with much known about its role in ethanol metabolism. Less known is a new body of research to be discussed in this review, suggesting that ALDH2 dysfunction may contribute to a variety of human diseases including cardiovascular diseases, diabetes, neurodegenerative diseases, stroke, and cancer. Recent studies suggest that ALDH2 dysfunction is also associated with Fanconi anemia, pain, osteoporosis, and the process of aging. Furthermore, an ALDH2 inactivating mutation (termed ALDH2*2) is the most common single point mutation in humans, and epidemiological studies suggest a correlation between this inactivating mutation and increased propensity for common human pathologies. These data together with studies in animal models and the use of new pharmacological tools that activate ALDH2 depict a new picture related to ALDH2 as a critical health-promoting enzyme.

20S Proteasome: Structural study using SAXS.

The process of intracellular proteolysis (protein degradation) is a regulatory mechanism of cellular homeostasis with the same level of importance as gene expression.The proteasome is a proteolytic complex responsible for protein degradation and consists of a catalytic core unit called the 20S(20SPT) where the hydrolysis occurs, engaged in one or both ends by regulatory units, called 19S, responsible for the recognition of poly-ubiquitylated proteins, unfolding and translocation of them to the 20S catalytic chamber. However, the catalytic unit (20SPT) can also degrade not marked proteins with poly-ubiquitin tail, as in the case of oxidized proteins. Oxidized proteins have a tendency to form aggregates (a phenomenon that underlies human neurodegenerative diseases), and therefore they must be effectively removed from the living cell. Interestingly, the cells have approximately 1/3 of proteasome without regulatory units, i.e. only the 20S catalytic unit.