Redox Biology (Oct 2017)

Bi-directionally protective communication between neurons and astrocytes under ischemia

  • Xiao-Mei Wu,
  • Christopher Qian,
  • Yu-Fu Zhou,
  • Yick-Chun Yan,
  • Qian-Qian Luo,
  • Wing-Ho Yung,
  • Fa-Li Zhang,
  • Li-Rong Jiang,
  • Zhong Ming Qian,
  • Ya Ke

DOI
https://doi.org/10.1016/j.redox.2017.05.010
Journal volume & issue
Vol. 13, no. C
pp. 20 – 31

Abstract

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The extensive existing knowledge on bi-directional communication between astrocytes and neurons led us to hypothesize that not only ischemia-preconditioned (IP) astrocytes can protect neurons but also IP neurons protect astrocytes from lethal ischemic injury. Here, we demonstrated for the first time that neurons have a significant role in protecting astrocytes from ischemic injury. The cultured medium from IP neurons (IPcNCM) induced a remarkable reduction in LDH and an increase in cell viability in ischemic astrocytes in vitro. Selective neuronal loss by kainic acid injection induced a significant increase in apoptotic astrocyte numbers in the brain of ischemic rats in vivo. Furthermore, TUNEL analysis, DNA ladder assay, and the measurements of ROS, GSH, pro- and anti-apoptotic factors, anti-oxidant enzymes and signal molecules in vitro and/or in vivo demonstrated that IP neurons protect astrocytes by an EPO-mediated inhibition of pro-apoptotic signals, activation of anti-apoptotic proteins via the P13K/ERK/STAT5 pathways and activation of anti-oxidant proteins via up-regulation of anti-oxidant enzymes. We demonstrated the existence of astro-protection by IP neurons under ischemia and proposed that the bi-directionally protective communications between cells might be a common activity in the brain or peripheral organs under most if not all pathological conditions.

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