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Kir4.1 channels in NG2-glia play a role in development, potassium signaling, and ischemia-related myelin loss.

Feier SongXiaoqi HongJiayu CaoGuofen MaYanfei HanCarlos CepedaZizhen KangTianle XuShumin DuanJieqing WanXiao-Ping Tong
Published in: Communications biology (2018)
The contribution of the inwardly rectifying K+ channel subtype Kir4.1 has been focused mainly on astrocytes, where they play important roles in the maintenance of resting membrane potential, extracellular K+ uptake, and facilitation of glutamate uptake in the central nervous system. Here, we report the role of Kir4.1 channels in NG2-glia during brain development, potassium signaling, and in an ischemic stroke disease model. Kir4.1 channels are widely expressed in NG2-glia during brain development. In the adult mouse hippocampus, Kir4.1 channels in NG2-glia constitute more than 80% of K+ channels inward currents. This large portion of Kir4.1 channel currents exhibits a deficit in NG2-glia as an initial response in a transient ischemic mouse model. Further evidence indicates that Kir4.1 deficits in NG2-glia potentially cause axonal myelin loss in ischemia through the association with oligodendrocyte-specific protein (OSP/Claudin-11), which unravels a potential therapeutic target in the treatment of ischemic stroke.
Keyphrases
  • white matter
  • cerebral ischemia
  • mouse model
  • oxidative stress
  • cognitive impairment
  • blood brain barrier
  • risk assessment
  • amino acid
  • cerebrospinal fluid
  • ischemia reperfusion injury
  • climate change
  • protein protein