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Oscar Arias-Carrión


arias@ciencias.unam.mx

Journal articles

2012
O Arias-Carrión, R Drucker-Colín, E Murillo-Rodríguez (2012)  Hypocretin (orexin) cell transplantation diminishes narcoleptic-like sleep behavior in rats.   CNS Neurol Disord Drug Targets Nov  
Abstract: The sleep disorder narcolepsy is now considered a neurodegenerative disease because there is a massive loss of neurons containing the neuropeptide, hypocretin/orexin (HCRT), and because narcoleptic patients have very low cerebrospinal fluid (CSF) levels of HCRT. Studies in animal models of narcolepsy have shown the neurophysiological role of the HCRT system in the development of this disease. For example, the injection of the neurotoxin named hypocretin-2-saporin (HCRT2/SAP) into the lateral hypothalamus (LH) destroys the HCRT neurons, diminishes the contents of HCRT in the CSF and induces narcoleptic-like behaviour in rats. Transplants of various cell types have been used to induce recovery in a variety of neurodegenerative animal models. In models such as Parkinson disease, cell survival has been shown to be small but satisfactory. Similarly, cell transplantation could be employed to implant grafts of HCRT cells into the LH or even other brain regions to treat narcolepsy. Here, we reported for the first time that transplantation of HCRT neurons into the LH of HCRT2/SAP lesioned rats diminishes narcoleptic-like sleep behaviour. Therefore, cell transplantation may provide an effective method to increase HCRT production within the narcoleptic brain.
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J A Vega, A López-Muñiz, M G Calavia, O García-Suárez, J Cobo, J Otero, O Arias-Carrión, P Pérez-Piñera, M Menéndez-González (2012)  Clinical implication of Meissner's corpuscles.   CNS Neurol Disord Drug Targets Nov  
Abstract: During the last decade skin biopsy has been confirmed as a tool to provide diagnostic information on some peripheral neuropathies. Most studies were focused on intraepithelial nerve fibers and few studies have investigated large myelinated fibers or whether corpuscles in human skin change quantitatively or qualitatively in pathologies of the peripheral or central nervous system. The main objective of this article is to provide a comprehensive review of Meissner's corpuscles including their distribution, density and age changes, development, molecular composition, cellular anatomy and physiology. We also describe their involvement in several pathologies and suggest including this dermal structure in the routine study of skin biopsies, looking for changes to be used as potential markers for several disorders. Finally the article draws the main aspects of how to study Meissner's corpuscles in skin biopsies and gives a view on future perspectives for implementing their use in clinical practice.
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Antonio Sanfim, Bruna Velasques, Sergio Machado, Oscar Arias-Carrión, Flávia Paes, Silmar Teixeira, Joana Luz Santos, Juliana Bittencourt, Luis F Basile, Mauricio Cagy, Roberto Piedade, Alexander T Sack, Antonio Egídio Nardi, Pedro Ribeiro (2012)  Analysis of slow- and fast-α band asymmetry during performance of a saccadic eye movement task: dissociation between memory- and attention-driven systems.   J Neurol Sci 312: 1-2. 62-67 Jan  
Abstract: This study aimed at analyzing the relationship between slow- and fast-alpha asymmetry within frontal cortex and the planning, execution and voluntary control of saccadic eye movements (SEM), and quantitative electroencephalography (qEEG) was recorded using a 20-channel EEG system in 12 healthy participants performing a fixed (i.e., memory-driven) and a random SEM (i.e., stimulus-driven) condition. We find main effects for SEM condition in slow- and fast-alpha asymmetry at electrodes F3-F4, which are located over premotor cortex, specifically a negative asymmetry between conditions. When analyzing electrodes F7-F8, which are located over prefrontal cortex, we found a main effect for condition in slow-alpha asymmetry, particularly a positive asymmetry between conditions. In conclusion, the present approach supports the association of slow- and fast-alpha bands with the planning and preparation of SEM, and the specific role of these sub-bands for both, the attention network and the coordination and integration of sensory information with a (oculo)-motor response.
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Gastão Lf Soares-Filho, Claudio T Mesquita, Evandro T Mesquita, Oscar Arias-Carrión, Sergio Machado, Manuel M González, Alexandre Valença, Antonio E Nardi (2012)  Panic attack triggering myocardial ischemia documented by myocardial perfusion imaging study. A case report.   Int Arch Med 5: 1. Sep  
Abstract: ABSTRACT: BACKGROUND: Chest pain, a key element in the investigation of coronary artery disease is often regarded as a benign prognosis when present in panic attacks. However, panic disorder has been suggested as an independent risk factor for long-term prognosis of cardiovascular diseases and a trigger of acute myocardial infarction. OBJECTIVE: Faced with the extreme importance in differentiate from ischemic to non-ischemic chest pain, we report a case of panic attack induced by inhalation of 35% carbon dioxide triggering myocardial ischemia, documented by myocardial perfusion imaging study. DISCUSSION: Panic attack is undoubtedly a strong component of mental stress. Patients with coronary artery disease may present myocardial ischemia in mental stress response by two ways: an increase in coronary vasomotor tone or a sympathetic hyperactivity leading to a rise in myocardial oxygen consumption. Coronary artery spasm was presumed to be present in cases of cardiac ischemia linked to panic disorder. Possibly the carbon dioxide challenge test could trigger myocardial ischemia by the same mechanisms. CONCLUSION: The use of mental stress has been suggested as an alternative method for myocardial ischemia investigation. Based on translational medicine objectives the use of CO2 challenge followed by Sestamibi SPECT could be a useful method to allow improved application of research-based knowledge to the medical field, specifically at the interface of PD and cardiovascular disease.
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Sergio Machado, Flávia Paes, Bruna Velasques, Silmar Teixeira, Roberto Piedade, Pedro Ribeiro, Antonio E Nardi, Oscar Arias-Carrión (2012)  Is rTMS an effective therapeutic strategy that can be used to treat anxiety disorders?   Neuropharmacology 62: 1. 125-134 Jan  
Abstract: Repetitive transcranial magnetic stimulation (rTMS) is a non-invasive procedure whereby a pulsed magnetic field stimulates electrical activity in the brain. Anxiety disorders are the most common of all mental health problems for which effective, mechanism-based treatments remain elusive. Consequently, more advanced non-invasive therapeutic methods are required. A possible method to modulate brain activity and potentially viable for use in clinical practice is rTMS. Here, we focus on the main findings of rTMS from animal models of anxiety and the experimental advances of rTMS that may become a viable clinical application to treat anxiety disorders, one of the most common causes of disability in the workplace in the world. Key advances in combining rTMS with neuroimaging technology may aid such future developments. This article is part of a Special Issue entitled 'Anxiety and Depression'.
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M Salama, A Ellaithy, B Helmy, M El-Gamal, D Tantawy, M Mohamed, H Sheashaa, M Sobh, O Arias-Carrión (2012)  Colchicine Protects Dopaminergic Neurons in a Rat Model of Parkinson's Disease.   CNS Neurol Disord Drug Targets Dec  
Abstract: A key feature of Parkinson's disease is the dopaminergic neuronal cell loss in the substantia nigra pars compacta. Besides inflammation, oxidative stress and apoptosis, a recent hypothesis suggested that degeneration of dopaminergic neurons occurs secondary to abnormal mitosis in these 'postmitotic neurons', ending up in apoptosis. Hence, recent therapies tried to prevent this mitotic cycle in dopaminergic neurons. However, most of the advocated therapies e.g., siRNA-induced silencing of cell cycle regulators, seems far from clinical application. In consequence, the use of anti-mitotic drugs could be a more practical alternative. Colchicine is one clinically approved drug that beyond its anti-mitotic effects has anti-inflammatory, anti-oxidant and anti-apoptotic properties. Moreover, clinical surveys proved that patients receiving colchicine for treating musculoskeletal disorders have lower incidence of Parkinson's disease. In addition, the difficult penetration of colchicines to the blood brain barrier disappears in parkinsonian patients due to depression of the p-glycoprotein efflux system. Based on these clinical data we explored the neuroprotective effects of colchicine in the rat rotenone model of Parkinson's disease. Thirty Sprague Dawley rats aged 3 months were divided into 3 equal groups. The first group received daily intraperitoneal injections of 0.5% carboxymethyl cellulose 3mL/kg. The second group received rotenone suspended in 0.5% carboxymethyl cellulose intraperitoneally at a dose of 3 mg/kg, daily. The third group received the same rotenone regimen plus daily oral colchicine at a dose of 20µg/kg. All animals were evaluated regarding locomotor disturbance through a blinded investigator who monitored akinesia, tremors and performance on grid test. After 35 and 70 days the animals were sacrificed and their brains were immunostained against anti-tyrosine hydroxylase. Results showed protective effects of colchicine against rotenone induced neurotoxicity as evident by behavioral tests and immunostaining analysis. Thus, this study provides, for the first time, experimental evidence that colchicine protects against the neurotoxic effects of rotenone on dopaminergic neurons, warranting further investigation as a therapeutic option for Parkinson's disease patients.
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M Calavia, E Viña, M Menéndez-González, A López-Muñiz, M Alonso-Guervós, J Cobo, J Otero, O Arias-Carrión, J A Vega, O García-Suárez (2012)  Evidence of Nestin-Positive cells in the human cutaneus Meissner and Pacinian Corpuscles.   CNS Neurol Disord Drug Targets Nov  
Abstract: Nestin is an intermediate filament protein expressed in neuroepithelial stem cells during development and it is later replaced by cell specific neuronal or glial filaments. Nevertheless, nestin+ cells remain within adult tissues and they can be regarded as potential neural stem cell (NSC). Nestin+ cells have been detected in Schwann cells related with sensory corpuscles of rodent and they have been demonstrated to be NSC. We have investigated the existence of nestin+ in human cutaneous cells Meissner and Pacinian corpuscles through the use of immunohistochemistry techniques and in situ hybridization. S100 protein (also regarded as a marker for NSC) and vimentin (the intermediate filament of mature Schwann cells in sensory corpuscles) were also investigated. The results show that the adult human cutaneous sensory Meissner and Pacinian corpuscles contains a small population of Schwann-related cells (vimentin+) which on the basis of their basic immunohistochemical characteristics (S100 protein+, nestin+) can be potential NSCs. Cells sharing identical immunohistochemical profile were also found in the close vicinity of Meissner corpuscles. Because their localization they are easily accessible and may represent a peripheral niche of NSC to be used for therapeutic goals.
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Consuelo Cartier, Juliana Bittencourt, Caroline Peressutti, Sergio Machado, Flávia Paes, Alexander T Sack, Luis F Basile, Silmar Teixeira, José Inácio Salles, Antonio Egidio Nardi, Mauricio Cagy, Roberto Piedade, Oscar Arias-Carrión, Bruna Velasques, Pedro Ribeiro (2012)  Premotor and occipital theta asymmetries as discriminators of memory- and stimulus-guided tasks.   Brain Res Bull 87: 1. 103-108 Jan  
Abstract: The saccadic paradigm has been used to investigate specific cortical networks involving visuospatial attention. We examined whether asymmetry in theta and beta band differentiates the role of the hemispheres during the execution of two different prosacadic conditions: a fixed condition, where the stimulus was presented at the same location; and a random condition, where the stimulus was unpredictable. Twelve healthy volunteers (3 male; mean age: 26.25) performed the task while their brain activity pattern was recorded using quantitative electroencephalography. We did not find any significant difference for beta, slow- and fast-alpha frequencies for the pairs of electrodes analyzed. The results for theta band showed a superiority of the left hemisphere in the frontal region when responding to the random condition on the right, which is related to the planning and selection of responses, and also a greater activation of the right hemisphere during the random condition, in the occipital region, related to the identification and recognition of patterns. These results indicate that asymmetries in the premotor area and the occipital cortex differentiate memory- and stimulus-driven tasks.
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Claudia Diniz, Bruna Velasques, Juliana Bittencourt, Caroline Peressuti, Sergio Machado, Silmar Teixeira, Joana Luz Santos, José Inácio Salles, Luis F Basile, Renato Anghinah, Elie Cheniaux, Antonio Egidio Nardi, Mauricio Cagy, Roberto Piedade, Oscar Arias-Carrión, Pedro Ribeiro (2012)  Cognitive mechanisms and motor control during a saccadic eye movement task: evidence from quantitative electroencephalography.   Arq Neuropsiquiatr 70: 7. 506-513 Jul  
Abstract: The saccadic movement is an important behavioral measure used to investigate several cognitive processes, including attention and sensorimotor integration. The present study aimed at investigating changes in beta coherence over frontal, motor, occipital, and parietal cortices during the performance of two different conditions of a prosacadic paradigm. The conditions involved a different pattern of stimulus presentation: a fixed and random stimulus presentation. Twelve healthy volunteers (three male, mean age of 26.25 (SD=4.13) performed the task, while their brain activity pattern was recorded using quantitative electroencephalography. The results showed an interaction between factors condition and moment for the pair of electrode C3/C4. We observed a main effect for moment to CZ/C4, FZ/F3, and P3/PZ. We also found a main effect for condition to FZ/F4, P3/P4, and O1/O2. Our results demonstrated an important role of the inter-connection of the two hemispheres in visual search and movement preparation. The study demonstrates an automation of action and reduction of the focus of attention during the task. We also found that the inter-hemispheric beta coherence plays an important role in the differentiation of the two conditions, and that beta in the right frontal cortex is able to differentiate the conditions, demonstrating a greater involvement of procedural memory in fixed condition. Our results suggest a neuronal specialization in the execution of prosacadic paradigm involving motor task sequence.
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Marco Orsini, Marcos Rg de Freitas, Julio Guilherme Silva, Márzia Puccioni Sohler, Carlos Henrique Melo Reis, Antonio Marcos da da Catharino, Acary Bulle Oliveira, Sérgio Machado, Antonio Egidio Nardi, Peter Salem, Flavio Sztajnbok, Marco A A Leite, Cristiane Nascimento, Eduardo Davidovich, Fábio Henrique de de Porto, Márcia Waddington Cruz, Sara Lúcia Silveira de Menezes, Oscar Arias-Carrión (2012)  Motor Neuron Disease and Acquired Axonal Neuropathy Association in HIV Infection: Case Report and Update.   Curr HIV Res Sep  
Abstract: BACKGROUND: A possible viral etiology has been documented in the genesis of motor neuron disorders and acquired peripheral neuropathies, mainly due to the vulnerability of peripheral nerves and the anterior horn to certain viruses. In recent years, several reports show association of HIV infection with Amyotrophic Lateral Sclerosis Syndrome, Motor Neuron Diseases and peripheral neuropathies. OBJECTIVE: To report a case of an association between Motor Neuron Disease and Acquired Axonal neuropathy in HIV infection, and describe the findings of neurological examination, cerebrospinal fluid, neuroimaging and electrophysiology. METHODS: The patient underwent through neurological examination. General medical examinations were performed, including, specific neuromuscular tests, analysis of cerebrospinal fluid, muscle biopsy and imaging studies. RESULTS AND DISCUSSION: The initial clinical presentation of our case was marked by cramps and fasciculations with posterior distal paresis and atrophy in the left arm. We found electromyography tracings with deficits in the anterior horn of the spinal cord and peripheral nerves. Dysphagia and release of primitive reflexes were also identified. At the same time, the patient was informed to be HIV positive with high viral load. He received antiretroviral therapy, with load control but with no clinical remission. CONCLUSION: Motor Neuron disorders and peripheral neuropathy may occur in association with HIV infection. However, a causal relationship remains uncertain. It is noteworthy that the antiretroviral regimen may be implicated in some cases.
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Oscar Arias-Carrión, Mohamed Salama (2012)  Reward-Seeking Behavior and Addiction: Cause or Cog?   Curr Drug Abuse Rev May  
Abstract: Although dopaminergic system represents the cornerstone in rewarding, other neurotransmitters can modulate both the reward system and the psychomotor effects of addictive drugs. Many hypotheses have been proposed for a better understanding of the reward system and its role in drug addiction. However, after many years of investigation, no single theory can completely explain the neural basis of drug addiction. Recent reports introduce novel neurotransmitters into the game e.g. dynorphins, orexins, histamine, gheralin and galanin. The interacting functions of these neurotransmitters have shown that the reward system and its role in drug dependence, is far more complicated than was thought before. Individual variations exist regarding response to drug exposure, vulnerability for addiction and the effects of different cues on reward systems. Consequently, genetic variations of neurotransmission are thought to influence reward processing that in turn may affect distinctive social behavior and susceptibility to addiction. However, the individual variations can not be based mainly on genetics; environmental factors seem to play a role too. Here we discuss the current knowledge about the orquestic regulation of different neurotransmitters on reward-seeking behavior and their potential effect on drug addiction.
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Henning Budde, Andrea Brunelli, Sergio Machado, Bruna Velasques, Pedro Ribeiro, Oscar Arias-Carrión, Claudia Voelcker-Rehage (2012)  Intermittent maximal exercise improves attentional performance only in physically active students.   Arch Med Res 43: 2. 125-131 Feb  
Abstract: Regular physical activity participation seems to be linked to brain metabolism and to be one factor responsible for different effects of high intensity exercise on cognition. Due to this, we investigated the effect of an intermittent maximal exercise intervention on a neuropsychological test requiring sustained and selective attention in a group of low and high physically active subjects.
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Eric Murillo-Rodriguez, Oscar Arias-Carrion, Abraham Zavala-Garcia, Andrea Sarro-Ramirez, Salvador Huitron-Resendiz, Gloria Arankowsky-Sandoval (2012)  Basic sleep mechanisms: an integrative review.   Cent Nerv Syst Agents Med Chem 12: 1. 38-54 Mar  
Abstract: Regulation of the sleep-waking cycle is complex and involves diverse brain circuits and molecules. On one hand, an interplay among many neuroanatomical and neurochemical systems including acetylcholine, dopamine, noradrenaline, serotonin, histamine, and hypocretin has been shown to control the waking state. On the other hand the sleep-onset is governed by the activity of sleep-promoting neurons placed in the anterior hypothalamus that utilize GABA to inhibit wake-promoting regions. Moreover, brainstem regions inhibited during wakefulness (W) and slow wave sleeps (SWS) become active during rapid eye movement (REM) sleep. Further complexity has been introduced by the recognition of sleep-promoting molecules that accumulate in the brain in prolonged W as well as the physiological role of gene expression during sleep. The sleep-wake cycle is currently undergoing intense research with many new findings leading to new paradigms concerning sleep regulation, brain organization and sleep function. This review provides a broader understanding of our present knowledge in the field of sleep research.
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Inmaculada Tasset, Aleyda Pérez-Herrera, Francisco J Medina, Oscar Arias-Carrión, René Drucker-Colín, Isaac Túnez (2012)  Extremely low-frequency electromagnetic fields activate the antioxidant pathway Nrf2 in a Huntington's disease-like rat model.   Brain Stimul Apr  
Abstract: Transcranial magnetic stimulation (TMS) is a non-invasive technique used recently to treat different neuropsychiatric and neurodegenerative disorders. Despite its proven value, the mechanisms through which TMS exerts its beneficial action on neuronal function remain unclear. Recent studies have shown that its beneficial effects may be at least partly due to a neuroprotective effect on oxidative and cell damage. This study shows that TMS can modulate the Nrf2 transcriptor factor in a Huntington's disease-like rat model induced by 3-nitropropionic acid (3-NP). Western blot analysis demonstrated that 3-NP caused a reduction in Nrf2 in both cytoplasm and nucleus, while TMS applied to 3-NP-treated rats triggered an increase in cytoplasm and nucleus Nrf2 levels. It was therefore concluded that TMS modulates Nrf2 expression and translocation and that these mechanisms may partly explain the neuroprotective effect of TMS, as well as its antioxidant and cell protection capacity.
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2011
Ti-Fei Yuan, Oscar Arias-Carrión (2011)  Adult neurogenesis in the hypothalamus: evidence, functions, and implications.   CNS Neurol Disord Drug Targets 10: 4. 433-439 Jun  
Abstract: Neurogenesis occurs in the adult brain in a constitutive manner under physiological circumstances within two regions: the dentate gyrus of the hippocampus and the subventricular zone of the lateral ventricles. In contrast to these two so-called neurogenic areas, other regions of the brain were considered to be primarily non-neurogenic in nature, implying that no new neurons were formed there under normal conditions. Recently, low proliferative activity was reported in the hypothalamus and the cell layers surrounding the third ventricle. This review summarizes recent evidence for adult neurogenesis in the hypothalamus, and points out the potential contributions of these new neurons to neural processing. We also discussed some technical considerations in investigating neurogenesis in the adult hypothalamus. It is believed that the hypothalamus could serve as a new source and target for stem cell transplantation.
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Fernanda Araújo, Sergio Machado, Flávia Paes, Marlo Cunha, Henning Budde, Mauricio Cagy, Luis F Basile, Oscar Arias-Carrión, Bruna Velasques, Roberto Piedade, Pedro Ribeiro (2011)  The effects of bromazepam over the temporo-parietal areas during the performance of a visuomotor task: a qEEG study.   Neurosci Lett 496: 2. 116-120 Jun  
Abstract: This study investigated the effects of bromazepam on qEEG when 14 healthy subjects were asked to perform a visuomotor task (i.e., motor vehicle driving task). The subjects were exposed to two experimental conditions: the placebo (PL) and 6 mg of bromazepam (Br 6 mg), following a randomized, double-blind design on different days. Specifically, we observe absolute power extracted from qEEG data for theta band. We expected to see a decrease in absolute theta power in the temporal and parietal areas due to the influence of bromazepam for the experimental group when compared with the placebo group. We found a main effect for the condition factor for electrodes T3, T4, P3 and P4. We also observed a main effect for the period factor for electrodes P3 and P4. We observed that the ingestion of 6 mg of bromazepam induces different patterns in theta power at the temporal and parietal sites. We concluded that 6 mg of bromazepam was an important factor in the fluctuation of the activities in the temporal and parietal areas. We then hypothesize about the specific role of this drug during the execution of a visuomotor task and within the sensorimotor integration process.
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Oscar Arias-Carrión, Marcela Palomero-Rivero, Diana Millán-Aldaco, Reyes Haro, René Drucker-Colín, Eric Murillo-Rodríguez (2011)  Infusion of modafinil into anterior hypothalamus or pedunculopontine tegmental nucleus at different time-points enhances waking and blocks the expression of recovery sleep in rats after sleep deprivation.   Exp Neurol 229: 2. 358-363 Jun  
Abstract: Clinical studies have indicated that the primary pharmacological activity of modafinil (MOD) is inducing wakefulness; however, the brain targets that underlie its wake-promoting activity have not been described. In the present study, we show that MOD injected into sleep-wake related brain areas promoted alertness. If administered (10, 20, or 30 μg/1 μL) into either anterior hypothalamus (AH) or pedunculopontine tegmental nucleus (PPTg) at 08:00, 12:00 or 16:00 h, MOD enhanced wakefulness whereas diminished slow wave sleep as well as rapid eye movement sleep. In addition, microinjection of MOD (10, 20, or 30 μg/1 μL) either into AH or PPTg after total sleep deprivation prevented the sleep rebound. Taken together, these observations suggest that AH and PPTg play a key role in the wake-inducing effects of MOD and encourage further experimentation to draw a possible mechanism of action.
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Thomas Carlsson, Friederike R Schindler, Matthias Höllerhage, Candan Depboylu, Oscar Arias-Carrión, Stefan Schnurrbusch, Thomas W Rösler, Wojciech Wozny, Gerhard P Schwall, Karlfried Groebe, Wolfgang H Oertel, Patrik Brundin, André Schrattenholz, Günter U Höglinger (2011)  Systemic administration of neuregulin-1β1 protects dopaminergic neurons in a mouse model of Parkinson's disease.   J Neurochem 117: 6. 1066-1074 Jun  
Abstract: Neuregulin-1 (Nrg1) is genetically linked to schizophrenia, a disease caused by neurodevelopmental imbalance in dopaminergic function. The Nrg1 receptor ErbB4 is abundantly expressed on midbrain dopaminergic neurons. Nrg1 has been shown to penetrate blood-brain barrier, and peripherally administered Nrg1 activates ErbB4 and leads to a persistent hyperdopaminergic state in neonatal mice. These data prompted us to study the effect of peripheral administration of Nrg1 in the context of Parkinson's disease, a neurodegenerative disorder affecting the dopaminergic system in the adult brain. We observed that systemic injections of the extracellular domain of Nrg1β(1) (Nrg1β(1)-ECD) increased dopamine levels in the substantia nigra and striatum of adult mice. Nrg1β(1)-ECD injections also significantly protected the mouse nigrostriatal dopaminergic system morphologically and functionally against 6-hydroxydopamine-induced toxicity in vivo. Moreover, Nrg1β(1)-ECD also protected human dopaminergic neurons in vitro against 6-hydroxydopamine. In conclusion, we have identified Nrg1β(1)-ECD as a neurotrophic factor for adult mouse and human midbrain dopaminergic neurons with peripheral administratability, warranting further investigation as therapeutic option for Parkinson's disease patients.
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Candan Depboylu, Martin K-H Schäfer, Oscar Arias-Carrión, Wolfgang H Oertel, Eberhard Weihe, Günter U Höglinger (2011)  Possible involvement of complement factor C1q in the clearance of extracellular neuromelanin from the substantia nigra in Parkinson disease.   J Neuropathol Exp Neurol 70: 2. 125-132 Feb  
Abstract: Activation of the complement system promotes the removal of pathogens and tissue damage products from the brain and may also be involved in neuronal cell death in neurodegenerative diseases. Here, we analyzed the expression of C1q, the initial recognition subcomponent of the classic complement cascade, in the substantia nigra pars compacta (SNc) in Parkinson disease (PD) and control cases using immunohistochemistry and in situ hybridization. Microglia were determined to be the only cells that expressed C1q in the SNc and other brain areas. In the SNc of PD cases, there was increased deposition of extracellular neuromelanin in the parenchyma, resulting from degeneration of dopaminergic neurons. Neuromelanin granules and blebs of degenerated neurons seemed to be opsonized by C1q and phagocytosed by C1q-positive microglia and macrophages in the parenchyma and in the perivascular spaces. Neuromelanin-laden C1q-positive cells were also attached to the luminal surfaces of blood vessels in the SNc in PD. Thus, we present evidence suggesting that microglia are capable of phagocytosing and clearing cellular debris of degenerating neurons from the SNc through a C1q-mediated pathway in PD.
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Flávia Paes, Sergio Machado, Oscar Arias-Carrión, Clayton Amaral Domingues, Silmar Teixeira, Bruna Velasques, Marlo Cunha, Daniel Minc, Luis Fh Basile, Henning Budde, Mauricio Cagy, Roberto Piedade, Scott Kerick, Manuel Menéndez-González, Stephen D Skaper, Braxton A Norwood, Pedro Ribeiro, Antonio Egídio Nardi (2011)  Effects of Methylphenidate on performance of a practical pistol shooting task: a quantitative electroencephalography (qEEG) study.   Int Arch Med 4: 1. 02  
Abstract: The present study examined absolute alpha power using quantitative electroencephalogram (qEEG) in bilateral temporal and parietal cortices in novice soldiers under the influence of methylphenidate (MPH) during the preparatory aiming period in a practical pistol-shooting task. We anticipated higher bi-hemispheric cortical activation in the preparatory period relative to pre-shot baseline in the methylphenidate group when compared with the control group because methylphenidate has been shown to enhance task-related cognitive functions.
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Kathia Lueneberg, Guadalupe Domínguez, Oscar Arias-Carrión, Marcela Palomero-Rivero, Diana Millán-Aldaco, Julio Morán, René Drucker-Colín, Eric Murillo-Rodríguez (2011)  Cellular viability effects of fatty acid amide hydrolase inhibition on cerebellar neurons.   Int Arch Med 4: 1. 08  
Abstract: ABSTRACT: The endocannabinoid anandamide (ANA) participates in the control of cell death inducing the formation of apoptotic bodies and DNA fragmentation. The aim of this study was to evaluate whether the ANA degrading enzyme, the fatty acid amide hydrolase (FAAH), would induce cellular death. Experiments were performed in cerebellar granule neurons cultured with the FAAH inhibitor, URB597 (25, 50 or 100 nM) as well as endogenous lipids such as oleoylethanolamide (OEA) or palmitoylethanolamide (PEA) and cellular viability was determined by MTT test. Neurons cultured with URB597 (25, 50 or 100 nM) displayed a decrease in cellular viability. In addition, if cultured with OEA (25 nM) or PEA (100 nM), cellular death was found. These results further suggest that URB597, OEA or PEA promote cellular death.
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Oscar Arias-Carrión, Salvador Huitrón-Reséndiz, Gloria Arankowsky-Sandoval, Eric Murillo-Rodríguez (2011)  Biochemical modulation of the sleep-wake cycle: endogenous sleep-inducing factors.   J Neurosci Res 89: 8. 1143-1149 Aug  
Abstract: Regulation of the sleep-wake cycle involves diverse brain circuits and molecules. Further complexity has been introduced by the recognition of sleep-promoting factors that accumulate in the brain naturally or during prolonged waking. The variety of sleep-inducing molecules includes peptides, cytokines, and lipids. With regard to the lipids, current evidence indicates the existence of endogenous lipids, called endocannabinoids, that mimic the pharmacological actions of the psychoactive ingredient of marijuana and that are likely to be essential factors in sleep promotion. This Mini-Review presents current knowledge concerning the role of endogenous compounds with sleep-promoting properties.
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Eric Murillo-Rodriguez, Alwin Poot-Ake, Oscar Arias-Carrion, Elda Pacheco-Pantoja, Alfredo de la Fuente-Ortegon, Gloria Arankowsky-Sandoval (2011)  The emerging role of the endocannabinoid system in the sleep-wake cycle modulation.   Cent Nerv Syst Agents Med Chem 11: 3. 189-196 Sep  
Abstract: The endocannabinoid system comprises amides, esters and ethers of long chain polyunsaturated fatty acids. Narachidonoylethanolamide (anandamide; ANA) and 2-arachidonoylglycerol (2-AG) are endogenous cannabinoids (endocannabinoids) ligands for the cannabinoid family of G-protein-coupled receptors named CB1 and CB2. Endocannabinoids are released upon demand from lipid precursors in a receptor-dependent manner and behave as retrograde signaling messengers, as well as modulators of postsynaptic transmission, interacting with other neurotransmitters systems. The two principal enzymes that are responsible for the metabolism of ANA and 2-AG are fatty acid amide hydrolase and monoacylglycerol lipase, respectively. Pharmacological experiments have shown that the administration of endocannabinoids induce cannabimimetic effects, including sleep promotion. This review will focus on some of the current evidence of the pharmacological potential of the endocannabinoid system on sleep modulation.
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Bruna Velasques, Sergio Machado, Flávia Paes, Juliana Bittencourt, Clayton Amaral Domingues, Luis F Basile, José I Salles, Mauricio Cagy, Roberto Piedade, Oscar Arias-Carrión, Alexander T Sack, Elie Cheniaux, Antonio Egídio Nardi, Pedro Ribeiro (2011)  Hemispheric differences over frontal theta-band power discriminate between stimulus- versus memory-driven saccadic eye movement.   Neurosci Lett 504: 3. 204-208 Oct  
Abstract: Although several electrophysiological studies have demonstrated the role of theta band during the execution of different visuospatial attention tasks, this study is the first to directly investigate the role of theta power during the planning, execution and cognitive control of saccadic eye movements (SEMs). The current study aims at addressing this issue by investigating absolute theta power over the frontal cortex during the execution of random and fixed SEMs. Twelve healthy volunteers, performed two tasks involving different conditions in the planning, execution and cognitive control of SEMs while their brain activity pattern was recorded using quantitative electroencephalography. We found an interaction between SEM condition and electrode (F3, F4, Fz), and a main effect of time point and electrode. Our key finding revealed that the stimulus presentation induces different patterns over frontal theta power increase between the left and right hemisphere. We conclude that right and left frontal regions are an important factor to discriminate between memory- versus stimulus-driven SEMs, and speculate on their different contributions to visuospatial attention.
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Mohamed Salama, Oscar Arias-Carrión (2011)  Natural toxins implicated in the development of Parkinson's disease.   Ther Adv Neurol Disord 4: 6. 361-373 Nov  
Abstract: Experimental models of Parkinson's disease (PD) are of great importance for improving the design of future clinical trials. Various neurotoxic models are available, including 6-hydroxydopamine (6-OHDA), 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), paraquat and rotenone. However, no model is considered perfect; each has its own limitations. Based on epidemiological data, a new trend of using environmental toxins in PD modeling seems attractive and has dominated public discussions of the disease etiology. A search for new environmental toxin-based models would improve our knowledge of the pathology of the condition. Here, we discuss some toxins of natural origin (e.g. cycad-derived toxins, epoxomicin, Nocardia asteroides bacteria, Streptomyces venezuelae bacteria, annonacin and DOPAL) that possibly represent a contributory environmental component to PD.
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Oscar Arias-Carrion, Sergio Machado, Flavia Paes, Bruna Velasques, Silmar Teixeira, Lizbeth Cardenas-Morales, Roberto Piedade, Pedro Ribeiro, Antonio E Nardi (2011)  Is rTMS an effective therapeutic strategy that can be used to treat Parkinson's disease?   CNS Neurol Disord Drug Targets 10: 6. 693-702 Sep  
Abstract: Repetitive transcranial magnetic stimulation (rTMS) is a non-invasive procedure whereby a pulsed magnetic field stimulates electrical activity in the brain. Parkinson's disease (PD) is a neurodegenerative process characterized by numerous motor and nonmotor clinical manifestations for which effective, mechanism-based treatments remain elusive. Consequently, more advanced non-invasive therapeutic methods are required. A possible method of rehabilitation that may be effective and potentially viable for use in clinical practice is rTMS. Here, we focus on the basic foundation of rTMS, the main findings of rTMS from animal models, the effects of rTMS on sensorimotor integration in patients with PD, and the experimental advances of rTMS that may become a viable clinical application to treat the disease.
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Thomas W Rösler, Candan Depboylu, Oscar Arias-Carrión, Wojciech Wozny, Thomas Carlsson, Matthias Höllerhage, Wolfgang H Oertel, André Schrattenholz, Günter U Höglinger (2011)  Biodistribution and brain permeability of the extracellular domain of neuregulin-1-β1.   Neuropharmacology 61: 8. 1413-1418 Dec  
Abstract: Neuregulin-1 (NRG1) belongs to a large family of growth and differentiation factors with a key role in the development and maintenance of the brain. Genetic association of NRG1 within brain disorders such as Alzheimer's disease, schizophrenia and neuroprotective properties of certain NRG1 isoforms have led to a variety of studies in corresponding disease models. In the present work, we investigated NRG1 with regard to its peripheral and central biodistribution after systemic application. We first-time radiolabeled the entire biologically active extracellular domain of NRG1 isotype-β1 (NRG1-β1 ECD; aa 2-246) with iodine-125 and administered it peripherally to healthy adult C57Bl6 mice. Blood kinetics and relative organ distribution of (125)I-labeled NRG1-β1 ECD were determined. The blood level of NRG1-β1 ECD peaked within the first hour after intraperitoneal (i.p.) application. The brain-blood ratios of (125)I-labeled NRG1-β1 ECD were time-dependently 150-370% higher compared to the brain impermeable control, (131)I-labeled bovine serum albumin. Autoradiographs of brain slices demonstrated that (125)I-labeled NRG1-β1 ECD accumulated in several regions of the brain e.g. frontal cortex, striatum and ventral midbrain containing the substantia nigra. In addition we found histochemical and biochemical evidence that phosphorylation of the NRG1 prototype receptor ErbB4 was increased in these regions after systemic application of NRG1-β1 ECD. Our data suggest that NRG1-β1 ECD passes the blood-brain barrier and activates cerebral ErbB4 receptors.
Notes:
Flávia Paes, Sergio Machado, Oscar Arias-Carrión, Bruna Velasques, Silmar Teixeira, Henning Budde, Mauricio Cagy, Roberto Piedade, Pedro Ribeiro, Joseph P Huston, Alexander T Sack, Antonio E Nardi (2011)  The value of repetitive transcranial magnetic stimulation (rTMS) for the treatment of anxiety disorders: an integrative review.   CNS Neurol Disord Drug Targets 10: 5. 610-620 Aug  
Abstract: Unlike for depression, only few studies are available today investigating the therapeutic effects of repetitive transcranial magnetic stimulation (rTMS) for anxiety disorders. This review aims to provide information on the current research approaches and main findings regarding the therapeutic use of rTMS in the context of various anxiety disorders. Although positive results have frequently been reported in both open and randomized controlled studies, our review of all identified studies indicates that at present no conclusive evidence of the efficacy of rTMS for the treatment for anxiety disorders is provided. Several treatment parameters have been used, making the interpretation of the results difficult. Moreover, sham-controlled research has often been unable to distinguish between response to rTMS and sham treatment. However, there is a limitation in the rTMS methods that likely impacts only the superficial cortical layers. It is not possible to directly stimulate more distant cortical areas, and also subcortical areas, relevant to the pathogenesis of anxiety disorders, though such effects in subcortical areas are thought to be indirect, via trans-synaptic connections. We thus recommend further studies to clearly determine the role of rTMS in the treatment of anxiety disorders. Key advances in combining TMS with neuroimaging technology may aid in such future developments.
Notes:
Joana Santos, Bruna Velasques, Flávia Paes, Sergio Machado, Óscar Arias-Carrión, Marlo Cunha, Henning Budde, Renato Anghinah, Luis Basile, Mauricio Cagy, Roberto Piedade, Pedro Ribeiro (2011)  Effects of functional electro-stimulation in the theta-band coherence: a quantitative electroencephalograph study.   Rev Neurol 53: 1. 8-14 Jul  
Abstract: Functional electrical stimulation (FES) is a technique used for rehabilitation of motor and sensory dysfunction and consisted in the application of neuromuscular electrical stimulation concurrently with a functional activity. Previous studies suggest that sensory motor processing during FES stimulation of hand is similar to that of voluntary hand movement.
Notes:
Silke Nuber, Elisabeth Petrasch-Parwez, Oscar Arias-Carrión, Leanie Koch, Zacharias Kohl, Jacqueline Schneider, Carsten Calaminus, Rolf Dermietzel, Anna Samarina, Jana Boy, Huu P Nguyen, Peter Teismann, Thirumalaisamy Palanichamy Velavan, Philipp J Kahle, Stephan von Hörsten, Markus Fendt, Rejko Krüger, Olaf Riess (2011)  Olfactory neuron-specific expression of A30P α-synuclein exacerbates dopamine deficiency and hyperactivity in a novel conditional model of early Parkinson's disease stages.   Neurobiol Dis 44: 2. 192-204 Nov  
Abstract: Mutations in the N-terminus of the gene encoding α-synuclein (α-syn) are linked to autosomal dominantly inherited Parkinson's disease (PD). The vast majority of PD patients develop neuropsychiatric symptoms preceding motor impairments. During this premotor stage, synucleinopathy is first detectable in the olfactory bulb (OB) and brain stem nuclei; however its impact on interconnected brain regions and related symptoms is still less far understood. Using a novel conditional transgenic mouse model, displaying region-specific expression of human mutant α-syn, we evaluated effect and reversibility of olfactory synucleinopathy. Our data showed that induction of mutant A30P α-syn expression increased transgenic deposition into somatodendritic compartment of dopaminergic neurons, without generating fibrillar inclusions. We found reversibly reduced levels of dopamine and metabolites in the OB, suggesting an impact of A30P α-syn on olfactory neurotransmitter content. We further showed that mutant A30P expression led to neurodegenerative changes on an ultrastructural level and a behaviorally hyperactive response correlated with novelty, odor processing and stress associated with an increased dopaminergic tone in midbrain regions. Our present data indicate that mutant (A30P) α-syn is directly implicated in reduction of dopamine signaling in OB interneurons, which mediates further alterations in brain regions without transgenic expression leading functionally to a hyperactive response. These modulations of neurotransmission may underlie in part some of the early neuropsychiatric symptoms in PD preceding dysfunction of the nigrostriatal dopaminergic system.
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Eric Murillo-Rodríguez, Marcela Palomero-Rivero, Diana Millán-Aldaco, Oscar Arias-Carrión, René Drucker-Colín (2011)  Administration of URB597, oleoylethanolamide or palmitoylethanolamide increases waking and dopamine in rats.   PLoS One 6: 7. 07  
Abstract: Oleoylethanolamide (OEA) and palmitoylethanolamide (PEA) are amides of fatty acids and ethanolamine named N-acylethanolamines or acylethanolamides. The hydrolysis of OEA and PEA is catalyzed by the fatty acid amide hydrolase (FAAH). A number of FAAH inhibitors that increase the levels of OEA and PEA in the brain have been developed, including URB597. In the present report, we examined whether URB597, OEA or PEA injected into wake-related brain areas, such as lateral hypothalamus (LH) or dorsal raphe nuclei (DRN) would promote wakefulness (W) in rats.
Notes:
Julio G Silva, Oscar Arias-Carrion, Flavia Paes, Bruna Velasques, Silmar Teixeira, Luis F H Basile, Mauricio Cagy, Roberto Piedade, Antonio E Nardi, Sergio Machado, Pedro Ribeiro (2011)  Bromazepam impairs motor response: an ERSP study.   CNS Neurol Disord Drug Targets 10: 8. 945-950 Dec  
Abstract: This study aimed to investigate the acute modulatory effect of bromazepam, a benzodiazepine derivative drug, on alpha and beta bands (8-35Hz) in primary motor areas (M1) through event-related spectral perturbation (ERSP). Ten healthy subjects were submitted to a cross-over double-blind design. Subjects performed a visuomotor task where they had to identify rapidly the ball launched horizontally and catch it quickly, while electroencephalographic activity was acquired. We found a statistically significant difference on the time windows of 2920 ms for 13Hz in the electrodes C3 and Cz, and on the time window of 2000 ms for 18Hz in the electrodes C3, when compared the bromazepam and placebo conditions. We concluded that the acute effects of bromazepam provoked changes in information process in the left M1 represented by electrode C3 in both 13 Hz and 18 Hz. Our paradigm is relevant for a better understanding of the brain dynamics due to the information related to bromazepam effects on sensorimotor processes. We consider this report an invitation to conduct more studies in order to associate electro-cortical activity and psychometric tests.
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2010
Oscar Arias-Carrión, Maria Stamelou, Eric Murillo-Rodríguez, Manuel Menéndez-González, Ernst Pöppel (2010)  Dopaminergic reward system: a short integrative review.   Int Arch Med 3: 10  
Abstract: Memory is an essential element to adaptive behavior since it allows consolidation of past experience guiding the subject to consider them in future experiences. Among the endogenous molecules that participate in the consolidation of memory, including the drug-seeking reward, considered as a form of learning, is dopamine. This neurotransmitter modulates the activity of specific brain nucleus such as nuclei accumbens, putamen, ventral tegmental area (VTA), among others and synchronizes the activity of these nuclei to establish the neurobiological mechanism to set the hedonic element of learning. We review the experimental evidence that highlights the activity of different brain nuclei modulating the mechanisms whereby dopamine biases memory towards events that are of motivational significance.
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Ti-Fei Yuan, Manuel Menéndez-González, Oscar Arias-Carrión (2010)  Single neuron electroporation in manipulating and measuring the central nervous system.   Int Arch Med 3: 11  
Abstract: The development and application of single neuron electroporation largely advanced the use of traditional genetics in investigations of the central nervous system. This quick and accurate manipulation of the brain at individual neuron level allowed the gain and loss of functional analyses of different genes and/or proteins. This manuscript reviewed the development of the technique and discussed some technical aspects in practical manipulations. Then the manuscript summarized the potential applications with this technique. Last but not least, the technique showed prospective future when combined with other modern methods in neuroscience research.
Notes:
Maria Stamelou, Rohan de Silva, Oscar Arias-Carrión, Evangelia Boura, Matthias Höllerhage, Wolfgang H Oertel, Ulrich Müller, Günter U Höglinger (2010)  Rational therapeutic approaches to progressive supranuclear palsy.   Brain 133: Pt 6. 1578-1590 Jun  
Abstract: Progressive supranuclear palsy is a sporadic and progressive neurodegenerative disease, most often presenting as a symmetric, akinetic-rigid syndrome with postural instability, vertical supranuclear gaze palsy and frontal lobe deficits. It belongs to the family of tauopathies and involves both cortical and subcortical structures. Although the exact pathophysiology is not yet fully understood, several lines of evidence point to a crucial contribution from both genetic predisposition and mitochondrial dysfunction. Recently gained insights into the pathophysiology of this disease have led to several hypothesis-driven therapeutic approaches aiming at disease-modification rather than mere symptomatic neurotransmitter-replacement therapy. Agents targeting mitochondrial dysfunction have already shown a positive effect in a phase II study and further studies to verify and expand these results are ongoing. Clinical studies with agents targeting tau dysfunction such as tau-kinase inhibitors, tau-aggregation inhibitors and microtubule stabilizers are in preparation or ongoing. This review presents the current pathophysiological concepts driving these exciting therapeutic developments.
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Thomas W Rösler, Oscar Arias-Carrión, Günter U Höglinger (2010)  Zonisamide: aspects in neuroprotection.   Exp Neurol 224: 2. 336-339 Aug  
Abstract: Zonisamide is widely used as an antiepileptic drug. Two studies published recently in Experimental Neurology focus on the drug's neuroprotective effect. In the present commentary, we discuss the significance of their findings and aspects of zonisamide in neuroprotection.
Notes:
Sergio Machado, Fernanda Araújo, Flávia Paes, Bruna Velasques, Marlo Cunha, Henning Budde, Luis F Basile, Renato Anghinah, Oscar Arias-Carrión, Mauricio Cagy, Roberto Piedade, Tom A de Graaf, Alexander T Sack, Pedro Ribeiro (2010)  EEG-based brain-computer interfaces: an overview of basic concepts and clinical applications in neurorehabilitation.   Rev Neurosci 21: 6. 451-468  
Abstract: Some patients are no longer able to communicate effectively or even interact with the outside world in ways that most of us take for granted. In the most severe cases, tetraplegic or post-stroke patients are literally 'locked in' their bodies, unable to exert any motor control after, for example, a spinal cord injury or a brainstem stroke, requiring alternative methods of communication and control. But we suggest that, in the near future, their brains may offer them a way out. Non-invasive electroencephalogram (EEG)-based brain-computer interfaces (BCI) can be characterized by the technique used to measure brain activity and by the way that different brain signals are translated into commands that control an effector (e.g., controlling a computer cursor for word processing and accessing the internet). This review focuses on the basic concepts of EEG-based BCI, the main advances in communication, motor control restoration and the downregulation of cortical activity, and the mirror neuron system (MNS) in the context of BCI. The latter appears to be relevant for clinical applications in the coming years, particularly for severely limited patients. Hypothetically, MNS could provide a robust way to map neural activity to behavior, representing the high-level information about goals and intentions of these patients. Non-invasive EEG-based BCIs allow brain-derived communication in patients with amyotrophic lateral sclerosis and motor control restoration in patients after spinal cord injury and stroke. Epilepsy and attention deficit and hyperactive disorder patients were able to downregulate their cortical activity. Given the rapid progression of EEG-based BCI research over the last few years and the swift ascent of computer processing speeds and signal analysis techniques, we suggest that emerging ideas (e.g., MNS in the context of BCI) related to clinical neurorehabilitation of severely limited patients will generate viable clinical applications in the near future.
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2009
Oscar Arias-Carrión, Ti-Fei Yuan (2009)  Autologous neural stem cell transplantation: a new treatment option for Parkinson's disease?   Med Hypotheses 73: 5. 757-759 Nov  
Abstract: The clinical motor dysfunction in Parkinson s disease (PD) is primarily linked to the depletion of dopamine in the striatum consecutive to the loss of the large dopaminergic neurons in the substantia nigra. Despite intense investigations, no effective therapy is available to prevent the onset, or to halt the progression of the neuronal cell loss. Here, we hypothesize that autologous adult neural stem cells (NSCs) are an attractive source for cell therapy to treat PD. They overcome the ethical issues inherent to the use of human fetal tissue or embryonic stem cells. NSCs derived from adult tissue also open the possibility for autologous transplantation, where NSCs are taken out from the patient, expanded and differentiated in vitro and re-implanted back as dopaminergic precursor cells.
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Oscar Arias-Carrión, Margaret Bradbury (2009)  The sleep-wake cycle, the hypocretin/orexin system and narcolepsy: advances from preclinical research to treatment.   CNS Neurol Disord Drug Targets 8: 4. 232-234 Aug  
Abstract: Since their discovery in 1998, it has been shown that the orexin (hypocretin) peptides are involved in almost all of the functions historically associated with the lateral hypothalamus. These peptides are produced by only some thousand neurons restricted to the posterolateral hypothalamus. A decade later, the orexin neurons have emerged as an important mode of signalling in the hypothalamus. Orexins were recognized as regulators of feeding behaviour. The subsequent finding that an orexin deficiency causes narcolepsy in humans and animals indicates that these hypothalamic neuropeptides also have a crucial role in regulating sleep and wakefulness. Recent studies of orexin-producing neurons and their efferent and afferent systems, as well as phenotypic characterizations of mice with genetic alterations in the orexin system, have suggested further roles for orexin in the coordination of emotion, energy homeostasis, reward, drug addiction and arousal. In this special issue, we will discuss the role of orexins in sleep-wake regulation and its involvement in narcolepsy.
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Oscar Arias-Carrión (2009)  [Hypocretin system and narcolepsy].   Rev Med Chil 137: 9. 1209-1216 Sep  
Abstract: Narcolepsy is a sleep disorder characterized by excessive daytime sleepiness, cataplexy, hypnagogic hallucinations, and sleep-onset rapid eye movement (REM) sleep periods. It is now identified as a neurodegenerative disease because there is a massive loss of specific neurons in the brain. These neurons contain the neuropeptides hypocretin-1 and hypocretin-2, which are also known as orexin-A and orexin-B. Cerebrospinal fluid hypocretin-1 measurements are diagnostic for primary narcolepsy. The cause of neural loss could be autoimmune since most patients have the HLA DQB1 0602 allele that predisposes to the disorders. The discovery of hypocretin deficiency is redefining the clinical entity of narcolepsy and offering novel diagnostic procedures. This article reviews the current understanding of narcolepsy and discusses the implications of hypocretin discovery.
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Oscar Arias-Carrión, Eric Murillo-Rodríguez (2009)  Cell transplantation: a future therapy for narcolepsy?   CNS Neurol Disord Drug Targets 8: 4. 309-314 Aug  
Abstract: Narcolepsy is a sleep disorder characterized by excessive daytime sleepiness, cataplexy, hypnagogic hallucinations, and sleep-onset rapid eye movement (REM) sleep periods. Narcolepsy is now identified to be a neurodegenerative disease, as there is a massive loss of neurons containing the neuropeptide, hypocretin/orexin. Orexin neurons are solely located in the hypothalamus, particularly in its perifornical, dorsomedial and lateral portions. Orexin fibers widely project throughout the brain and generally have excitatory effects on their postsynaptic cells. Patients with narcolepsy have a severe reduction in the levels of orexins in the cerebrospinal fluid, a finding consistent with orexin neuronal loss. Experimental models have been generated in order to study the physiology of the orexin system and narcolepsy. The discovery of orexin deficiency in narcolepsy is redefining the clinical entity of narcolepsy and offering novel diagnostic procedures. This article reviews the current understanding of narcolepsy and discusses the opportunity to explore the potential use of transplants as a therapeutical tool in order to treat narcolepsy.
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Eric Murillo-Rodríguez, Oscar Arias-Carrión, Katya Sanguino-Rodríguez, Mauricio González-Arias, Reyes Haro (2009)  Mechanisms of sleep-wake cycle modulation.   CNS Neurol Disord Drug Targets 8: 4. 245-253 Aug  
Abstract: Regulation of the sleep-waking cycle is complex, involving multiple neurological circuits and diverse endogenous molecules. Interplay among assorted neuroanatomical and neurochemical systems such as acetylcholine, dopamine, noradrenaline, serotonin, histamine, and hypocretin maintain the waking (W) state. The sleep-onset is governed by the interacting forces of the sleep drive, which steadily increases with duration of W, and circadian fluctuations. Sleep-promoting neurons located in the anterior hypothalamus release GABA and inhibit wake-promoting regions in the hypothalamus and brainstem and participate in the generation of slow wave sleep (SWS). During rapid eye movement (REM) sleep, brainstem regions typically inhibited during W and SWS become active. In this regard, ascending projections from cholinergic neurons in the brainstem activate the thalamus which in turn increases the firing of the neurons in the cortex. Finally, sleep-promoting substances that accumulate in the brain during natural or prolonged W implicate a further complexity in the mechanism of modulation of the sleep-wake cycle. This review provides a broad understanding of our present knowledge in the field of sleep research.
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Oscar Arias-Carrión, Elizabeth Yamada, Nils Freundlieb, Miriam Djufri, Lukas Maurer, Guido Hermanns, Bastian Ipach, Wei-Hua Chiu, Corinna Steiner, Wolfgang H Oertel, Günter U Höglinger (2009)  Neurogenesis in substantia nigra of parkinsonian brains?   J Neural Transm Suppl 73. 279-285  
Abstract: The clinical motor dysfunction in Parkinson's disease is primarily the consequence of a progressive degeneration of dopaminergic neurons in the substantia nigra of the nigrostriatal pathway. The degeneration of this tract provokes a depletion of dopamine in the striatum, where it is required as a permissive factor for normal motor function. Despite intense investigations, no effective therapy is available to prevent the onset or to halt the progression of the neuronal cell loss. Therefore, recent years have seen research into the mechanisms of endogenous repair processes occurring in the adult brain, particularly in the substantia nigra. Neurogenesis occurs in the adult brain in a constitutive manner under physiological circumstances within two regions: the dentate gyrus of the hippocampus and the subventricular zone of the lateral ventricles. In contrast to these two so-called neurogenic areas, the remainder of the brain is considered to be primarily nonneurogenic in nature, implying that no new neurons are produced there under normal conditions. The occurrence of adult neurogenesis in the substantia nigra under the pathological conditions of Parkinson's disease, however, remains controversial. Here, we review the published evidence of whether adult neurogenesis exists or not within the substantia nigra, where dopaminergic neurons are lost in Parkinson's disease.
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2008
Ti-Fei Yuan, Oscar Arias-Carrión (2008)  Locally induced neural stem cells/pluripotent stem cells for in vivo cell replacement therapy.   Int Arch Med 1: 1. 09  
Abstract: Neural stem cells hold the key to innovative new treatments for age-associated degeneration and traumatic injury to the brain and spinal cord. We hypothesized that the in vivo induced pluripotent stem cells or neural stem cells through "forced gene expression" can be used to repair damaged brain areas or treat degenerative diseases. Hopefully, these in vivo patient-specific stem cells can bring a new avenue for cell replacement therapies.
Notes:
Oscar Arias-Carrión (2008)  Basic mechanisms of rTMS: Implications in Parkinson's disease.   Int Arch Med 1: 1. 04  
Abstract: Basic and clinical research suggests a potential role for repetitive transcranial magnetic stimulation (rTMS) in the treatment of Parkinson's disease. However, compared to the growing number of clinical studies on its putative therapeutic properties, the studies on the basic mechanisms of rTMS are surprisingly scarce.
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2007
O Arias-Carrión, T Olivares-Buñuelos, R Drucker-Colín (2007)  [Neurogenesis in the adult brain].   Rev Neurol 44: 9. 541-550 May  
Abstract: The discovery that new neurons continue to be generated in the adult brain has modified the concept of brain plasticity and has brought to light new mechanisms that ensure the homeostasis of the nervous system.
Notes:
Oscar Arias-Carrión, Ernst Pŏppel (2007)  Dopamine, learning, and reward-seeking behavior.   Acta Neurobiol Exp (Wars) 67: 4. 481-488  
Abstract: Dopaminergic neurons of the midbrain are the main source of dopamine (DA) in the brain. DA has been shown to be involved in the control of movements, the signaling of error in prediction of reward, motivation, and cognition. Cerebral DA depletion is the hallmark of Parkinson's disease (PD). Other pathological states have also been associated with DA dysfunction, such as schizophrenia, autism, and attention deficit hyperactivity disorder in children, as well as drug abuse. DA is closely associated with reward-seeking behaviors, such as approach, consumption, and addiction. Recent researches suggest that the firing of DA neurons is a motivational substance as a consequence of reward-anticipation. This hypothesis is based on the evidence that, when a reward is greater than expected, the firing of certain DA neurons increases, which consequently increases desire or motivation towards the reward.
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Eric Murillo-Rodríguez, Oscar Arias-Carrión (2007)  [Hypocretins, peptides associated with narcolepsy].   Gac Med Mex 143: 5. 421-425 Sep/Oct  
Abstract: Narcolepsy is a chronic disease characterized by excessive somnolence, abrupt transitions from wakefulness to rapid eye movement sleep stage and cataplexy. Experimental evidence show that narcolepsy in humans is a neurodegenerative disease associated with the lost of hypocretin (HCRT) neurons in the lateral hypothalamus. Narcoleptic patients also display a significant diminution in HCRT contents of cerebrospinal fluid. In order to study narcolepsy, several experimental models have been developed. Murine and canine models currently allow us to study this disease. Our laboratory has developed a new experimental rat model of narcolepsy. This model allows us to study the disease from a histological and neurochemical perspective. Elsewhere we have reported that the use of the toxin hypocretin2/saporine (HCRT2/ SAP) selectively destroys hypocretinergic neurons. The loss of these neurons induces a similar behavioural profile as the one observed in other experimental models of narcolepsy. In the present review we describe an overview on narcolepsy, the hypocretinergic system, experimental models in narcolepsy and the use of transplants as an alternative therapeutic tool.
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O Arias-Carrión, R Drucker-Colín (2007)  [Neurogenesis as a therapeutic strategy to regenerate central nervous system].   Rev Neurol 45: 12. 739-745 Dec  
Abstract: In the past few years, it has been demonstrated that the adult mammalian brain maintains the capacity to generate new neurons from neural stem/progenitor cells. These new neurons integrate into pre-existing systems through a process referred to as 'neurogenesis in the adult brain'.
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Oscar Arias-Carrión, Nils Freundlieb, Wolfgang H Oertel, Günter U Höglinger (2007)  Adult neurogenesis and Parkinson's disease.   CNS Neurol Disord Drug Targets 6: 5. 326-335 Oct  
Abstract: Parkinson's disease is a neurodegenerative disorder characterized by a progressive neuronal loss affecting preferentially the dopaminergic neurons of the nigrostriatal projection. Transplantation of fetal dopaminergic precursor cells has provided the proof of principle that a cell replacement therapy can ameliorate clinical symptoms in affected patients. Recent years have provided evidence for the existence of neural stem cells with the potential to produce new neurons, particularly of a dopaminergic phenotype, in the adult mammalian brain. Such stem cells have been identified in so called neurogenic brain areas, where neurogenesis is constitutively ongoing, but also in primarily non-neurogenic areas, such as the midbrain and the striatum, where neurogenesis does not occur under normal physiological conditions. We review here presently published evidence to evaluate the concept that endogenous neural stem cells may have the potential to be instrumentalized for a non-invasive cell replacement therapy with autologous neurons to repair the damaged nigrostriatal dopaminergic projection in Parkinson's disease.
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2006
Oscar Arias-Carrión, René Drucker-Colín, Eric Murillo-Rodríguez (2006)  Survival rates through time of hypocretin grafted neurons within their projection site.   Neurosci Lett 404: 1-2. 93-97 Aug  
Abstract: Narcolepsy is a sleep disorder characterized by excessive daytime sleepiness, inadvertent transitions from wakefulness to rapid eye movement sleep (so called "sleep-onset REMS period") and cataplexy (sudden bilateral skeletal muscle weakness during waking without impairment of consciousness). This disorder has been recently linked to a loss of hypocretin (HCRT) neurons making narcolepsy a neurodegenerative disease. Neuronal replacement could be used to reverse the symptoms of narcolepsy. Towards this end, we have recently reported that HCRT neurons from rat pups can survive when grafted into the pons of adult rats. Here, we investigate the time-course of survival of grafted HCRT neurons into the pons of adult rats. The HCRT neurons are present only in the lateral hypothalamus, and therefore suspension of cells from this region was derived from 8- to 10-day-old rat pups (donor), and grafted into the pons of adult (60 days old) host rats. Control rats received a transplant that consisted of cells from the cerebellum where no HCRT neurons are present. All adult host rats were sacrificed 1, 3, 6, 9, 12, 24, or 36 days after grafting. Immunohistochemistry was used to identify and count the presence of the HCRT grafted neurons in the target area. The tally of HCRT neurons present in the graft zone 1 day post-grafting was considered to be the baseline. From day 3 to 36 post-transplant there was a steady decline in the number of HCRT neurons. We also noted that on day 36, the HCRT neurons that survived in the pons had morphological features that were similar to mature HCRT neurons in the adult lateral hypothalamus, suggesting that these neurons might be functionally active. Control rats that received grafts of cerebellar tissue did not show HCRT neurons in the target area. These results demonstrate that there is a progressive decline in the number of transplanted neurons, but a significant percentage of HCRT neurons do survive until day 36. This study highlights the potential use of transplants as a therapeutical tool in order to treat narcolepsy.
Notes:
Oscar Arias-Carrión, Salvador Hernández-López, Osvaldo Ibañez-Sandoval, José Bargas, Arturo Hernández-Cruz, René Drucker-Colín (2006)  Neuronal precursors within the adult rat subventricular zone differentiate into dopaminergic neurons after substantia nigra lesion and chromaffin cell transplant.   J Neurosci Res 84: 7. 1425-1437 Nov  
Abstract: Neurogenesis in the adult mammalian brain continues in the subventricular zone (SVZ). Neuronal precursors from the SVZ migrate along the rostral migratory stream to replace olfactory bulb interneurons. After the destruction of the nigro-striatal pathway (SN-lesion), some SVZ precursors begin to express tyrosine hydroxylase (TH) and neuronal markers (NeuN). Grafting of chromaffin cells (CCs) into the denervated striatum increases the number of TH+ cells (SVZ TH+ cells; Arias-Carrión et al., 2004). This study examines the functional properties of these newly differentiating TH+ cells. Under whole-cell patch-clamp, most SVZ cells recorded from lesioned and grafted animals (either TH+ or TH-) were non-excitable. Nevertheless, a small percentage of SVZ TH+ cells had the electrophysiologic phenotype of mature dopaminergic neurons and showed spontaneous postsynaptic potentials. Dopamine (DA) release was measured in SVZ and striatum from both control and SN-lesioned rats. As expected, 12 weeks after SN lesion, DA release decreased drastically. Nevertheless, 8 weeks after CCs graft, release from the SVZ of SN-lesioned rats recovered, and even surpassed that from control SVZ, suggesting that newly formed SVZ TH+ cells release DA. This study shows for the first time that in response to SN-lesions and CC grafts neural precursors within the SVZ change their developmental program, by not only expressing TH, but more importantly by acquiring excitable properties of mature dopaminergic neurons. Additionally, the release of DA in a Ca(2+)-dependent manner and the attraction of synaptic afferents from neighboring neuronal networks gives further significance to the overall findings, whose potential importance is discussed.
Notes:
2004
Oscar Arias-Carrión, Eric Murillo-Rodriguez, Man Xu, Carlos Blanco-Centurion, Rene Drucker-Colín, Priyattam J Shiromani (2004)  Transplantation of hypocretin neurons into the pontine reticular formation: preliminary results.   Sleep 27: 8. 1465-1470 Dec  
Abstract: The sleep disorder narcolepsy is now considered a neurodegenerative disease because there is a massive loss of neurons containing the neuropeptide, hypocretin, and because narcoleptic patients have very low cerebrospinal fluid levels of hypocretin. Transplants of various cell types have been used to induce recovery in a variety of neurodegenerative animal models. In models such as Parkinson disease, cell survival has been shown to be small but satisfactory. Currently, there are no data indicating whether hypocretin neurons can survive when grafted into host tissue. Here we examined the survival of hypocretin-containing neurons grafted into the pontine reticular formation, a region traditionally regarded to be key for rapid eye movement sleep generation.
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O Arias-Carrión, L Verdugo-Díaz, A Feria-Velasco, D Millán-Aldaco, A A Gutiérrez, A Hernández-Cruz, R Drucker-Colín (2004)  Neurogenesis in the subventricular zone following transcranial magnetic field stimulation and nigrostriatal lesions.   J Neurosci Res 78: 1. 16-28 Oct  
Abstract: Neurogenesis continues at least in two regions of the mammalian adult brain, the subventricular zone (SVZ) and the subgranular zone in hippocampal dentate gyrus. Neurogenesis in these regions is subjected to physiological regulation and can be modified by pharmacological and pathological events. Here we report the induction of neurogenesis in the SVZ and the differentiation after nigrostriatal pathway lesion along with transcranial magnetic field stimulation (TMFS) in adult rats. Significant numbers of proliferating cells demonstrated by bromodeoxyuridine-positive reaction colocalized with the neuronal marker NeuN were detected bilaterally in the SVZ, and several of these cells also expressed tyrosine hydroxylase. Transplanted chromaffin cells into lesioned animals also induced bilateral appearance of subependymal cells. These results show for the first time that unilateral lesion, transplant, and/or TMFS induce neurogenesis in the SVZ of rats and also that TMFS prevents the motor alterations induced by the lesion.
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