316 research outputs found

    β-Secretase 1’s Targeting Reduces Hyperphosphorilated Tau, Implying Autophagy Actors in 3xTg-AD Mice

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    β-site APP cleaving enzyme 1 (BACE1) initiates APP cleavage, which has been reported to be an inducer of tau pathology by altering proteasome functions in Alzheimer's disease (AD). However, the exact relationship between BACE1 and PHF (Paired Helical Filaments) formation is not clear. In this study, we confirm that BACE1 and Hsc70 are upregulated in the brains of AD patients, and we demonstrate that both proteins show enhanced expression in lipid rafts from AD-affected triple transgenic mouse brains. BACE1 targeting increased Hsc70 levels in the membrane and cytoplasm fractions and downregulated Hsp90 and CHIP in the nucleus in the hippocampi of 3xTg-AD mice. However, these observations occurred in a proteasome-independent manner in vitro. The BACE1miR-induced reduction of soluble hyperphosphorylated tau was associated with a decrease in MAPK activity. However, the BACE1 RNAi-mediated reduction of hyperphosphorylated tau was only blocked by 3-MA (3-methyladenine) in vitro, and it resulted in the increase of Hsc70 and LAMP2 in lipid rafts from hippocampi of 3xTg-AD mice, and upregulation of survival and homeostasis signaling. In summary, our findings suggest that BACE1 silencing neuroprotects reducing soluble hyperphosphorylated tau, modulating certain autophagy-related proteins in aged 3xTg-AD mice

    ASTROCYTES IN THE NEUROPROTECTION AFTER BRAIN STROKE

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    Astrocytes are specialized glial cells of the nervous system, which have multiple homeostatic functions for the survival and maintenance of the neurovascular unit. It has been shown that astrocytes have critical role in the dynamics pro survival conferring neuroprotective, angiogenic, immunomodulatory, neurogenic, antioxidants and regulatory synapse functions (Shen et al 2012; Gimsa et al 2013; Proschel et al 2014); making them excellent candidates as the source of neuroprotection and neurorestauration of tissue affected by events ischemia and / or reperfusion. However, these cells also may be involved in negative responses such as reactive astrocytes and glial scar under chronic excitotoxic responses generated by these events. To know what are the key points in the pro and anti-survival responses of astrocytes, would allow use them as targets in cellular therapies. This review has aim to study the mechanisms for neuroprotection in these cells (Posada-Duque et al submitted), which would make them targets of cell therapy, through of inducing regeneration, such as vehicle for corrective molecular systems and trigger endogenous cellular events that can recover the tissue homeostasis, which is lost after progressive damage

    Role of astrocytes in neuronal energetic production and its relationship with neurodegeneration

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    Astrocytes are specialized glial cells that make important contributions to neuronal support and the blood-brain barrier. This barrier limits the passage of certain fatty acids and lipids to the Central Nervous System (CNS), which the majority of lipids found in this tissue must be synthesized right there. Astrocytes are involved in the conversion and production of fatty acids in the CNS as well as production of lipid messengers that apparently are involved in the activity of neurons and neuroprotective or neurodegenerative processes. For this reason, we review the role of astrocytes in energy production and its relationship to neuronal lipid changes in neuroprotective and neurodegenerative processes

    Dementia, preclinical studies in neurodegeneration and its potential for translational medicine in SouthAmerica

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    Latin-American people with dementia will increase in a 368% in 2050, higher than USA and Europe. In addition, to sporadic dementia type Alzheimer and vascular dementia progression after Cerebrovascular disease, the statistics are increased in Colombia by specific populations affected with pure neurodegenerative and vascular dementias like autosomical dominant familial Alzheimer´s disease and CADASIL. In spite of the enormous human and economical effort and investment, neither sporadic nor genetic kinds of dementia progression have been prevented or blocked yet. Currently, exist several animal models that partially solve the understanding of the neurodegenerative etiopathogenesis and its treatment. However, when the potential therapies are translated to humans, those do not work or present a limited action. Main difficulties are the diverse comorbility associated to the cause and/or several affected brain regions, reducing the efficacy of some therapies which are limited to a tissue-specific action or modulating a kind of neurotransmission. Global investigation suggests that a general prevention could be achieved with the improvement in the quality of lifestyle, including healthy diet, physical and mental activity, and avoiding mechanical or chemical pro-inflammatory events in an early stage in the most of non-communicable diseases. In this review, we present some molecular targets and preclinical studies in animal models to propose strategies that could be useful in a future translation to prevent or block neurodegeneration: One is gene therapy silencing pathogenic genes in critical brain areas where excitotoxicity arise and spread. Another is to take advantage of the natural source and its wide biodiversity of natural products some of them identified by the blocking and prevention of neurodegeneration. On the other side, the casuistic of pure dementias in the Latin-American region give an exceptional opportunity to understand the pathogenesis in these human populations, and go to favour of the basic and clinical researchers interaction for a better understanding and medical care of mix dementias, which have more complex factors than pure ones. However, to promove the translation of any therapeutical alternative is neccesary to clarify the normative and protocols for developing clinical trials with original candidates or strategies proposed from South-American countries

    Behav Neurosci

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    Rho-kinase (ROCK) is a downstream effector of RhoA, which has been associated with growth cone collapse and retraction in neurons. ROCK inhibition has been shown to protect against ischemic damage, thereby improving short-term collateral flow, inhibiting platelet aggregation, leukocyte adhesion, and preventing neuronal death. However, little is known about the long-term effects of ROCK inhibition on behavior and neuroprotection. The consequence of ROCK inhibition on ischemic rats' learning and spatial memory after 30 days of intracerebroventricular treatment was evaluated. It was found that Y27632 (ROCK inhibitor) reduced neurodegenerative markers, such as Fluoro-Jade, PHF (paired helicoidal filaments) immunoreactivity, and p25 protein levels, in the hippocampus of ischemic animals and improved learning and spatial memory tasks. However, Y27632 alone impaired sham animals' long-term memory. These findings demonstrated the beneficial impact of ROCK inhibition on tauopathy and altered p25 protein levels following global cerebral ischemia

    Neuroprotective effects of resveratrol in Alzheimer disease pathology

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    Alzheimer's disease is a chronic neurodegenerative disorder characterized by a progressive loss of cognitive and behavioral abilities. Extracellular senile plaques and intracellular neurofibrillary tangles are hallmarks of AD. Researchers aim to analyze the molecular mechanisms underlying AD pathogenesis; however, the therapeutic options available to treat this disease are inadequate. In the past few years, several studies have reported interesting insights about the neuroprotective properties of the polyphenolic compound resveratrol (3, 5, 4 -trihydroxy-trans-stilbene) when used with in vitro and in vivo models of AD. The aim of this review is to focus on the neuroprotective and antioxidant effects of resveratrol on AD and its multiple potential mechanisms of action. In addition, because the naturally occurring forms of resveratrol have a very limited half-life in plasma, a description of potential analogs aimed at increasing the bioavailability in plasma is also discussed

    Astrocytic modulation of blood brain barrier: Perspectives on Parkinson's disease

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    The blood-brain barrier (BBB) is a tightly regulated interface in the Central Nervous System (CNS) that regulates the exchange of molecules in and out from the brain thus maintaining the CNS homeostasis. It is mainly composed of endothelial cells (ECs), pericytes and astrocytes that create a neurovascular unit (NVU) with the adjacent neurons. Astrocytes are essential for the formation and maintenance of the BBB by providing secreted factors that lead to the adequate association between the cells of the BBB and the formation of strong tight junctions. Under neurological disorders, such as chronic cerebral ischemia, brain trauma, Epilepsy, Alzheimer and Parkinson's Diseases, a disruption of the BBB takes place, involving a lost in the permeability of the barrier and phenotypical changes in both the ECs and astrocytes. In this aspect, it has been established that the process of reactive gliosis is a common feature of astrocytes during BBB disruption, which has a detrimental effect on the barrier function and a subsequent damage in neuronal survival. In this review we discuss the implications of astrocyte functions in the protection of the BBB, and in the development of Parkinson's disease (PD) and related disorders. Additionally, we highlight the current and future strategies in astrocyte protection aimed at the development of restorative therapies for the BBB in pathological conditions.Fil: Cabezas, Ricardo. Pontificia Universidad Javeriana; ColombiaFil: Ávila, Marcos. Pontificia Universidad Javeriana; ColombiaFil: Gonzalez Santos, Janneth. Pontificia Universidad Javeriana; ColombiaFil: El Bachá, Ramon Santos. Universidade Federal da Bahia; BrasilFil: Báez, Eliana. Pontificia Universidad Javeriana; ColombiaFil: Garcia Segura, Luis Miguel. Consejo Superior de Investigaciones Científicas; EspañaFil: Coronel, Juan Camilo Jurado. Pontificia Universidad Javeriana; ColombiaFil: Capani, Francisco. Consejo Nacional de Investigaciones Científicas y Técnicas. Oficina de Coordinación Administrativa Houssay. Instituto de Investigaciones Cardiológicas. Universidad de Buenos Aires. Facultad de Medicina. Instituto de Investigaciones Cardiológicas; ArgentinaFil: Cardona Gomez, Gloria Patricia. Universidad de Antioquia; ColombiaFil: Barreto, George E.. Pontificia Universidad Javeriana; Colombi
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