Decoding the role of zebrafish neuroglia in CNS disease modeling
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01.01.2021 |
Zabegalov K.N.
Wang D.
Yang L.E.
Wang J.
Hu G.
Serikuly N.
Alpyshov E.T.
Khatsko S.L.
Zhdanov A.
Demin K.A.
Galstyan D.S.
Volgin A.D.
de Abreu M.S.
Strekalova T.
Song C.
Amstislavskaya T.G.
Sysoev Y.
Musienko P.E.
Kalueff A.V.
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Brain Research Bulletin |
10.1016/j.brainresbull.2020.09.020 |
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© 2020 Elsevier Inc. Neuroglia, including microglia and astrocytes, is a critical component of the central nervous system (CNS) that interacts with neurons to modulate brain activity, development, metabolism and signaling pathways. Thus, a better understanding of the role of neuroglia in the brain is critical. Complementing clinical and rodent data, the zebrafish (Danio rerio) is rapidly becoming an important model organism to probe the role of neuroglia in brain disorders. With high genetic and physiological similarity to humans and rodents, zebrafish possess some common (shared), as well as some specific molecular biomarkers and features of neuroglia development and functioning. Studying these common and zebrafish-specific aspects of neuroglia may generate important insights into key brain mechanisms, including neurodevelopmental, neurodegenerative, neuroregenerative and neurological processes. Here, we discuss the biology of neuroglia in humans, rodents and fish, its role in various CNS functions, and further directions of translational research into the role of neuroglia in CNS disorders using zebrafish models.
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Experimental Studies of the Expression of Neurotransmitter Transporter Genes in Astrocytes in Different Part of the Brain
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15.09.2019 |
Shusharina N.
Patrushev M.
Silina E.
Stupin V.
Litvitsky P.
Orlova A.
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Neuroscience and Behavioral Physiology |
10.1007/s11055-019-00820-1 |
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© 2019, Springer Science+Business Media, LLC, part of Springer Nature. Objectives. To study the expression of various neurotransmitter transporters (glutamate, aspartate, lactate, choline) in cultures of astrocytes from different part of the brain (cortex, hippocampus, and brainstem) in rats aged three and 11 days. Materials and methods. An experimental study was performed using 24 Rattus norvegicus rats aged three (n = 12) and 11 days (n = 12). High-throughput sequencing results were analyzed. Results. Expression of the glutamate and aspartate transporters in the brainstem in three-day-old rats was greater than in other areas, though the reverse pattern was seen in rats aged 11 days. Expression of the lactate transporter with age was identical to that in the cortex. Conclusions. The data obtained here demonstrated the nature of neuroastrocyte relationships and the role of astrocytes in the process of signal transmission. The results of the study, carried out using original methods of investigating neurotransmitter transporters, allow them to be recommended for monitoring the processes of neurogenesis and neurohomeostasis, including in cerebrovascular and neurodegenerative diseases.
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Expression of genes for neurotransmitter transporters in astrocytes in different brain regions in experiment
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01.01.2018 |
Shusharina N.
Patrushev M.
Silina E.
Stupin V.
Litvitsky P.
Orlova A.
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Zhurnal Nevrologii i Psihiatrii imeni S.S. Korsakova |
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© Team of authors, 2018. Objective. To investigate the expression of transporters of different neurotransmitters (glutamate, aspartate, lactate, choline) in the culture of astrocytes isolated from different regions of the brain (cortex, hippocampus and brainstem) in 3- and 11-day rats. Material and methods. An experimental study was performed on 24 3-(n=12) and 11-days (n=12) old rats (Rattus norvegicus). The results of high-performance sequencing were analyzed. Results. The expression of glutamate and aspartate transporters in the brainstem of 3-day rats was higher than in other regions, however, an opposite effect was observed in 11-day rats. The expression of lactate transporters with age became identical to those of the cortex. Conclusion. The data demonstrate the particular qualities of neuro-astrocytic connections and the important role of astrocytes in signal transmission. Results of the study performed by using genetic methods developed by the authors for the study of neurotransmitter transporters make it possible to recommend these methods to control the neurogenesis and neurohomeostasis, including in cerebrovascular and neurodegenerative diseases.
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