Changes of nNOS expression in the tuberal hypothalamic nuclei during ageing
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01.08.2020 |
Moiseev K.Y.
Vishnyakova P.A.
Porseva V.V.
Masliukov A.P.
Spirichev A.A.
Emanuilov A.I.
Masliukov P.M.
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Nitric Oxide - Biology and Chemistry |
10.1016/j.niox.2020.04.002 |
0 |
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© 2020 Elsevier Inc. The hypothalamus is the most important integrator of autonomic and endocrine regulation in the body and it also has a fundamental role in ageing development and lifespan control. In order to better understand the role of NO-ergic system in the hypothalamic regulation of ageing, the purpose of this study was to investigate the expression of neuronal nitric oxide synthase (nNOS) in the arcuate (ARC), ventromedial (VMH) and dorsomedial (DMH) hypothalamic nuclei in young (2-3-month-old) and old (24-month-old) male and female rats using immunohistochemistry and western blot analysis. In young animals, only single nNOS-immunoreactive (IR) neurons were detected in ARC, and nNOS-IR neurons were found in the VMH (19 ± 3.2% in females and 14.5 ± 2.6% in males) and DMH (17 ± 4.0% in females and 21 ± 2.8% in males). In aged animals, the number of nNOS-IR neurons increased in all studied nuclei, including ARC (36 ± 3.1% in females and 33.5 ± 3.7% in males), VMH (83 ± 4.3% in females and 58 ± 2.1% in males) and DMH (57 ± 1.9% in females and 54 ± 1.8% in males). The expression of nNOS also significantly increased in the ARC, VMH and DMH during ageing by western blot analysis. In conclusion, ageing is accompanied by increasing of nNOS expression in the hypothalamus and this process is related to regions involved in the control of feeding behavior.
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Loss of Orai2-Mediated Capacitative Ca<sup>2+</sup> Entry Is Neuroprotective in Acute Ischemic Stroke
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01.11.2019 |
Stegner D.
Hofmann S.
Schuhmann M.
Kraft P.
Herrmann A.
Popp S.
Höhn M.
Popp M.
Klaus V.
Post A.
Kleinschnitz C.
Braun A.
Meuth S.
Lesch K.
Stoll G.
Kraft R.
Nieswandt B.
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Stroke |
10.1161/STROKEAHA.119.025357 |
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Background and Purpose- Ischemic stroke is one of the leading causes of disability and death. The principal goal of acute stroke treatment is the recanalization of the occluded cerebral arteries, which is, however, only effective in a very narrow time window. Therefore, neuroprotective treatments that can be combined with recanalization strategies are needed. Calcium overload is one of the major triggers of neuronal cell death. We have previously shown that capacitative Ca2+ entry, which is triggered by the depletion of intracellular calcium stores, contributes to ischemia-induced calcium influx in neurons, but the responsible Ca2+ channel is not known. Methods- Here, we have generated mice lacking the calcium channel subunit Orai2 and analyzed them in experimental stroke. Results- Orai2-deficient mice were protected from ischemic neuronal death both during acute ischemia under vessel occlusion and during ischemia/reperfusion upon successful recanalization. Calcium signals induced by calcium store depletion or oxygen/glucose deprivation were significantly diminished in Orai2-deficient neurons demonstrating that Orai2 is a central mediator of neuronal capacitative Ca2+ entry and is involved in calcium overload during ischemia. Conclusions- Our experimental data identify Orai2 as an attractive target for pharmaceutical intervention in acute stroke.
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The Role of Neuronal Factors in the Epigenetic Reprogramming of Microglia in the Normal and Diseased Central Nervous System
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11.10.2019 |
Veremeyko T.
Yung A.
Dukhinova M.
Strekalova T.
Ponomarev E.
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Frontiers in Cellular Neuroscience |
10.3389/fncel.2019.00453 |
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© Copyright © 2019 Veremeyko, Yung, Dukhinova, Strekalova and Ponomarev. Twenty years ago, the scientific community exhibited relatively little interest in the study of microglial cells. However, recent technical and conceptual advances in this field have greatly increased interest in the basic biology of these cells within various neurodegenerative diseases, including multiple sclerosis, Alzheimer’s disease, and traumatic brain/spinal cord injuries. The main functions of these cells in the normal central nervous system (CNS) remain poorly understood, despite considerable elucidation of their roles in pathological conditions. Microglia populate the brain before birth and remain in close lifelong contact with CNS-resident cells under the influence of the local microenvironment. Within the CNS parenchyma, microglia actively interact with two main cell types, astrocytes and neurons, which produce many factors that affect microglia phenotypes in the normal CNS and during neuroinflammation. These factors include interleukin (IL)-34, macrophage colony-stimulating factor, transforming growth factor-β, and IL-4, which promote microglial expansion, survival, and differentiation to an anti-inflammatory phenotype in the normal CNS. Under inflammatory conditions, however, astrocytes produce several pro-inflammatory factors that contribute to microglial activation. The interactions of microglia with neurons in the normal and diseased CNS are especially intriguing. Microglia are known to interact actively with neurons by facilitating axonal pruning during development, while neurons provide specific factors that alter microglial phenotypes and functions. This review focuses mainly on the roles of soluble neuronal factors that affect microglial phenotypes and functions and the possible involvement of these factors in the pathology of neurodegenerative diseases.
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Insulin Protects Cortical Neurons Against Glutamate Excitotoxicity
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24.09.2019 |
Krasil’nikova I.
Surin A.
Sorokina E.
Fisenko A.
Boyarkin D.
Balyasin M.
Demchenko A.
Pomytkin I.
Pinelis V.
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Frontiers in Neuroscience |
10.3389/fnins.2019.01027 |
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© Copyright © 2019 Krasil’nikova, Surin, Sorokina, Fisenko, Boyarkin, Balyasin, Demchenko, Pomytkin and Pinelis. Glutamate excitotoxicity is implicated in the pathogenesis of numerous diseases, such as stroke, traumatic brain injury, and Alzheimer’s disease, for which insulin resistance is a concomitant condition, and intranasal insulin treatment is believed to be a promising therapy. Excitotoxicity is initiated primarily by the sustained stimulation of ionotropic glutamate receptors and leads to a rise in intracellular Ca2+ ([Ca2+]i), followed by a cascade of intracellular events, such as delayed calcium deregulation (DCD), mitochondrial depolarization, adenosine triphosphate (ATP) depletion that collectively end in cell death. Therefore, cross-talk between insulin and glutamate signaling in excitotoxicity is of particular interest for research. In the present study, we investigated the effects of short-term insulin exposure on the dynamics of [Ca2+]i and mitochondrial potential in cultured rat cortical neurons during glutamate excitotoxicity. We found that insulin ameliorated the glutamate-evoked rise of [Ca2+]i and prevented the onset of DCD, the postulated point-of-no-return in excitotoxicity. Additionally, insulin significantly improved the glutamate-induced drop in mitochondrial potential, ATP depletion, and depletion of brain-derived neurotrophic factor (BDNF), which is a critical neuroprotector in excitotoxicity. Also, insulin improved oxygen consumption rates, maximal respiration, and spare respiratory capacity in neurons exposed to glutamate, as well as the viability of cells in the MTT assay. In conclusion, the short-term insulin exposure in our experiments was evidently a protective treatment against excitotoxicity, in a sharp contrast to chronic insulin exposure causal to neuronal insulin resistance, the adverse factor in excitotoxicity.
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Photoreceptor calcium sensor proteins in detergent-resistant membrane rafts are regulated via binding to caveolin-1
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01.07.2018 |
Vladimirov V.
Zernii E.
Baksheeva V.
Wimberg H.
Kazakov A.
Tikhomirova N.
Nemashkalova E.
Mitkevich V.
Zamyatnin A.
Lipkin V.
Philippov P.
Permyakov S.
Senin I.
Koch K.
Zinchenko D.
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Cell Calcium |
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5 |
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© 2018 Elsevier Ltd Rod cell membranes contain cholesterol-rich detergent-resistant membrane (DRM) rafts, which accumulate visual cascade proteins as well as proteins involved in regulation of phototransduction such as rhodopsin kinase and guanylate cyclases. Caveolin-1 is the major integral component of DRMs, possessing scaffolding and regulatory activities towards various signaling proteins. In this study, photoreceptor Ca 2+ -binding proteins recoverin, NCS1, GCAP1, and GCAP2, belonging to neuronal calcium sensor (NCS) family, were recognized as novel caveolin-1 interacting partners. All four NCS proteins co-fractionate with caveolin-1 in DRMs, isolated from illuminated bovine rod outer segments. According to pull-down assay, surface plasmon resonance spectroscopy and isothermal titration calorimetry data, they are capable of high-affinity binding to either N-terminal fragment of caveolin-1 (1–101), or its short scaffolding domain (81–101) via a novel structural site. In recoverin this site is localized in C-terminal domain in proximity to the third EF-hand motif and composed of aromatic amino acids conserved among NCS proteins. Remarkably, the binding of NCS proteins to caveolin-1 occurs only in the absence of calcium, which is in agreement with higher accessibility of the caveolin-1 binding site in their Ca 2+ -free forms. Consistently, the presence of caveolin-1 produces no effect on regulatory activity of Ca 2+ -saturated recoverin or NCS1 towards rhodopsin kinase, but upregulates GCAP2, which potentiates guanylate cyclase activity being in Ca 2+ -free conformation. In addition, the interaction with caveolin-1 decreases cooperativity and augments affinity of Ca2 + binding to recoverin apparently by facilitating exposure of its myristoyl group. We suggest that at low calcium NCS proteins are compartmentalized in photoreceptor rafts via binding to caveolin-1, which may enhance their activity or ensure their faster responses on Ca 2+ -signals thereby maintaining efficient phototransduction recovery and light adaptation.
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Genetic methods for detecting astrocytes, neurons and neurogenesis
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01.06.2018 |
Shusharina N.
Silina E.
Vasilyev A.
Dominova I.
Stupin V.
Sinelnicova T.
Sotnikov E.
Turkin A.
Patrushev M.
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Serbian Journal of Experimental and Clinical Research |
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0 |
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© 2018, University of Kragujevac, Faculty of Science. All rights reserved. Two sets of reactants for modelling neurogenesis (SRMN) were developed based on the designed and tested genetic structures of lentiviral vectors. SRMN-1 contains the genetic construct LVV-GFAP-GCaMP3 and is intended for cellspecific transduction in astroglia cells. SRMN-2 contains the genetic construct LVV-PRSx8-TN-XXL and is intended for the phenotype-specific transduction in neurons. The present study examined SRMN-1 and SRMN-2 samples and assessed their efficiency in vitro and in vivo in Norvegicus rats. Specificity to particular cell types for all SRMN samples exceeded 97%. The number of induced signalling cascades was determined via activation of intracellular ingsignalling cascades in neurons and astrocytes (purinergic receptors and β-adrenoceptors). The results demonstrated dynamic recording of fluorescent signals and a two-fold increase in intensity after addition of the activator in all samples. The experimental SRMN samples revealed successful and stable transfection of catecholaminergic neurons and astrocytes, data on transfection efficiency, specificity of the developed genetic structures of SRMN, and calcium dynamics in transfected neurons and astrocytes.
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Vestibular vertigo treatment in a polymorbid patient
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01.01.2018 |
Kosivtsova O.
Yavorskaya S.
Fateeva T.
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Nevrologiya, Neiropsikhiatriya, Psikhosomatika |
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0 |
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© 2018 Ima-Press Publishing House. All rights reserved. Many physicians have difficulty managing patients with vertigo. Incorrect routine diagnoses are frequently made in patients with peripheral vestibulopathy, which makes therapy fail. Most cases of vestibular vertigo are caused by peripheral vestibular disorders (otolithiasis, hydrops, neuronitis). Rehabilitation maneuvers are effective in the treatment of benign paroxysmal positional dizziness; salt-free diet, diuretics, and betahistine dihydrochloride are for Mnire's disease (syndrome); vestibular rehabilitation is for vestibular neuronitis. Betahistine dihydrochloride is most effective among all the medicines used in different causes of vestibular vertigo, including that of unclear origin. The paper gives the positive experience with betahistine made in Russia for vestibular vertigo.
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The characteristic of protein biosynthesis in brain neurons with chronic alcohol intoxication
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01.01.2018 |
Morozov Y.
Velenko P.
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Sudebno-Meditsinskaya Ekspertiza |
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1 |
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© 2018 Media Sphera Publishing Group. All rights reserved. The objective of the present study was to evaluate the possibilities for the use of the changes in the AgNOR staining patterns in the neurons of the dorsal raphe nucleus (DRN) for the purposes of the medical differential diagnostics of the cases of death from chronic alcohol intoxication. We elucidated the characteristics of the activity of protein biosynthesis including the number and the area of the nucleoli in the nuclei of the neurons of the individuals who had died from chronic alcohol intoxication (n=20) in comparison with the subjects of the control group (n=13). To reveal the morphological structures associated with protein biosynthesis in the nucleoli of the serotoninergic neurons of the dorsal raphe nucleus in the brain, the histological preparations were stained with the use of the silver-staining technique for nucleolar organizer regions (AgNOR). The comparative statistical analysis of the results thus obtained with the calculated confidence coefficients was carried out. The aggregated analysis of all the dorsal raphe subnuclei revealed the impairment of the AgNOR staining characteristics in the neurons of the subjects who had died from chronic alcohol intoxication in comparison with those of the subjects comprising the control group. It is concluded that the results of the study can be used for differential diagnostics of deaths from chronic alcohol intoxication and other causes.
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Age-Related Changes in Morphometric Parameters of Hippocampal Neurons in Humans
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S. E. Shemyakov
V. N. Nikolenko
Yu. V. Nesvizhskiy
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Neuroscience and Behavioral Physiology |
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There was an oversight in the Authorship of a recent Images in Urogynecology article titled: Rectocutaneous fistula with transmigration of the suture: a rare delayed complication of vault fixation with the sacrospinous ligament (DOI 10.1007/ s00192-015-2823-5). We would like to include Adj A/P Han How Chuan’s name in the list of authors. Adj A/P Han is a Senior Consultant and Department Head of Urogynaecology at the KK Hospital for Women and Children, Singapore.
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PUBMED DOI |
Age-Related Changes in Morphometric Parameters of Hippocampal Neurons in Humans
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S. E. Shemyakov (professor)
V. N. Nikolenko (director)
Yu. V. Nesvizhskiy (professor)
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Neuroscience and Behavioral Physiology |
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There was an oversight in the Authorship of a recent Images in Urogynecology article titled: Rectocutaneous fistula with transmigration of the suture: a rare delayed complication of vault fixation with the sacrospinous ligament (DOI 10.1007/ s00192-015-2823-5). We would like to include Adj A/P Han How Chuan’s name in the list of authors. Adj A/P Han is a Senior Consultant and Department Head of Urogynaecology at the KK Hospital for Women and Children, Singapore.
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PUBMED DOI |