Results 351 to 360 of about 426,793 (383)
The astrocytic sigma-1 receptor constitutes in the fast antidepressant action of hypidone hydrochloride (YL-0919) in rodents. [PDF]
Front PharmacolLi JF +5 more
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Mechanism of LCN2 in cerebral ischemia-reperfusion injury. [PDF]
Front NeurosciCai LY +5 more
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Neutrophils induce astrocytic AQP4 expression via IL-1α and TNF, contributing to cerebral oedema in ischaemic stroke rats. [PDF]
Sci RepSugimoto K +5 more
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Current Biology, 2021
Philip Hasel and Shane Liddelow introduce astrocytes - glial cells that help to maintain the homeostasis of the central nervous system during development, normal physiology, and aging.
Philip, Hasel, Shane A, Liddelow
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Philip Hasel and Shane Liddelow introduce astrocytes - glial cells that help to maintain the homeostasis of the central nervous system during development, normal physiology, and aging.
Philip, Hasel, Shane A, Liddelow
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Science, 1992
Neurogenesis in the mammalian central nervous system is believed to end in the period just after birth; in the mouse striatum no new neurons are produced after the first few days after birth.
B. Reynolds, S. Weiss
semanticscholar +1 more source
Neurogenesis in the mammalian central nervous system is believed to end in the period just after birth; in the mouse striatum no new neurons are produced after the first few days after birth.
B. Reynolds, S. Weiss
semanticscholar +1 more source
2023
Ageing is associated with a morphological and functional decline of astrocytes with a prevalence of morphological atrophy and loss of function. In particular, ageing is manifested by the shrinkage of astrocytic processes: branches and leaflets, which decreases synaptic coverage.
Verkhratsky, Alexei, Semyanov, Alexey
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Ageing is associated with a morphological and functional decline of astrocytes with a prevalence of morphological atrophy and loss of function. In particular, ageing is manifested by the shrinkage of astrocytic processes: branches and leaflets, which decreases synaptic coverage.
Verkhratsky, Alexei, Semyanov, Alexey
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Neurochemical Research, 2016
Cell migration is a fundamental phenomenon that underlies tissue morphogenesis, wound healing, immune response, and cancer metastasis. Great progresses have been made in research methodologies, with cell migration identified as a highly orchestrated process.
Xi Hua Jia +11 more
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Cell migration is a fundamental phenomenon that underlies tissue morphogenesis, wound healing, immune response, and cancer metastasis. Great progresses have been made in research methodologies, with cell migration identified as a highly orchestrated process.
Xi Hua Jia +11 more
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Seminars in Cell & Developmental Biology, 2019
Astrocytes are a unique and dynamic subtype of glial cells in the central nervous system (CNS). Understanding their biochemical reactions and their influence in the surrounding cells is extremely important in the neuroscience field. They exert important influence in the neurotransmission, ionic homeostasis and also release neuroactive molecules termed ...
Roberto Farina de Almeida +4 more
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Astrocytes are a unique and dynamic subtype of glial cells in the central nervous system (CNS). Understanding their biochemical reactions and their influence in the surrounding cells is extremely important in the neuroscience field. They exert important influence in the neurotransmission, ionic homeostasis and also release neuroactive molecules termed ...
Roberto Farina de Almeida +4 more
openaire +3 more sources
Neurochemical Research, 2021
Changes in astrocyte channels, transporters, and metabolism play a critical role in seizure generation and epilepsy. In particular, alterations in astrocyte potassium, glutamate, water and adenosine homeostasis and gap junctional coupling have all been associated with hyperexcitability and epileptogenesis (largely in temporal lobe epilepsy).
Devin K. Binder, Christian Steinhäuser
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Changes in astrocyte channels, transporters, and metabolism play a critical role in seizure generation and epilepsy. In particular, alterations in astrocyte potassium, glutamate, water and adenosine homeostasis and gap junctional coupling have all been associated with hyperexcitability and epileptogenesis (largely in temporal lobe epilepsy).
Devin K. Binder, Christian Steinhäuser
openaire +2 more sources