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Activation and Role of Astrocytes in Ischemic Stroke
Activation and Role of Astrocytes in Ischemic Stroke
by Shen, Xin-Ya , Bi, Xia , Gao, Zhen-Kun , Han, Yu , Yuan, Mei , Guo, Yi-Sha
in astrocyte / Astrocytes / blood–brain barrier / Brain research / Central nervous system / cerebral edema / Cytokines / Gene expression / Glial cells / glutamate / Homeostasis / inflammation / Ischemia / Kinases / Morbidity / Morphology / Nervous system / Nervous system diseases / Neuroscience / Neurotoxicity / oxidative stress / Physiology / Stroke / Tumor necrosis factor-TNF
2021
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Activation and Role of Astrocytes in Ischemic Stroke
by Shen, Xin-Ya , Bi, Xia , Gao, Zhen-Kun , Han, Yu , Yuan, Mei , Guo, Yi-Sha
in astrocyte / Astrocytes / blood–brain barrier / Brain research / Central nervous system / cerebral edema / Cytokines / Gene expression / Glial cells / glutamate / Homeostasis / inflammation / Ischemia / Kinases / Morbidity / Morphology / Nervous system / Nervous system diseases / Neuroscience / Neurotoxicity / oxidative stress / Physiology / Stroke / Tumor necrosis factor-TNF
2021
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Activation and Role of Astrocytes in Ischemic Stroke
Activation and Role of Astrocytes in Ischemic Stroke
by Shen, Xin-Ya , Bi, Xia , Gao, Zhen-Kun , Han, Yu , Yuan, Mei , Guo, Yi-Sha
in astrocyte / Astrocytes / blood–brain barrier / Brain research / Central nervous system / cerebral edema / Cytokines / Gene expression / Glial cells / glutamate / Homeostasis / inflammation / Ischemia / Kinases / Morbidity / Morphology / Nervous system / Nervous system diseases / Neuroscience / Neurotoxicity / oxidative stress / Physiology / Stroke / Tumor necrosis factor-TNF
2021

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Activation and Role of Astrocytes in Ischemic Stroke
Activation and Role of Astrocytes in Ischemic Stroke
Journal Article

Activation and Role of Astrocytes in Ischemic Stroke

Shen, Xin-Ya,
Bi, Xia,
Gao, Zhen-Kun,
Han, Yu,
Yuan, Mei,
Guo, Yi-Sha
2021
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Overview
Ischemic stroke refers to the disorder of blood supply of local brain tissue caused by various reasons. It has high morbidity and mortality worldwide. Astrocytes are the most abundant glial cells in the central nervous system (CNS). They are responsible for the homeostasis, nutrition, and protection of the CNS and play an essential role in many nervous system diseases’ physiological and pathological processes. After stroke injury, astrocytes are activated and play a protective role through the heterogeneous and gradual changes of their gene expression, morphology, proliferation, and function, that is, reactive astrocytes. However, the position of reactive astrocytes has always been a controversial topic. Many studies have shown that reactive astrocytes are a double-edged sword with both beneficial and harmful effects. It is worth noting that their different spatial and temporal expression determines astrocytes’ various functions. Here, we comprehensively review the different roles and mechanisms of astrocytes after ischemic stroke. In addition, the intracellular mechanism of astrocyte activation has also been involved. More importantly, due to the complex cascade reaction and action mechanism after ischemic stroke, the role of astrocytes is still difficult to define. Still, there is no doubt that astrocytes are one of the critical factors mediating the deterioration or improvement of ischemic stroke.
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Publisher
Frontiers Research Foundation,Frontiers Media S.A
Subject

astrocyte

/ Astrocytes

/ blood–brain barrier

/ Brain research

/ Central nervous system

/ cerebral edema

/ Cytokines

/ Gene expression

/ Glial cells

/ glutamate

/ Homeostasis

/ inflammation

/ Ischemia

/ Kinases

/ Morbidity

/ Morphology

/ Nervous system

/ Nervous system diseases

/ Neuroscience

/ Neurotoxicity

/ oxidative stress

/ Physiology

/ Stroke

/ Tumor necrosis factor-TNF

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