Frontiers in Cellular Neuroscience (Sep 2018)

Activation of Astrocytic μ-opioid Receptor Elicits Fast Glutamate Release Through TREK-1-Containing K2P Channel in Hippocampal Astrocytes

  • Dong Ho Woo,
  • Dong Ho Woo,
  • Jin Young Bae,
  • Min-Ho Nam,
  • Min-Ho Nam,
  • Heeyoung An,
  • Heeyoung An,
  • Yeon Ha Ju,
  • Yeon Ha Ju,
  • Joungha Won,
  • Joungha Won,
  • Jae Hyouk Choi,
  • Jae Hyouk Choi,
  • Eun Mi Hwang,
  • Eun Mi Hwang,
  • Kyung-Seok Han,
  • Kyung-Seok Han,
  • Yong Chul Bae,
  • C. Justin Lee,
  • C. Justin Lee,
  • C. Justin Lee

DOI
https://doi.org/10.3389/fncel.2018.00319
Journal volume & issue
Vol. 12

Abstract

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Recently, μ-opioid receptor (MOR), one of the well-known Gi-protein coupled receptors (Gi-GPCR), was reported to be highly expressed in the hippocampal astrocytes. However, the role of astrocytic MOR has not been investigated. Here we report that activation of astrocytic MOR by [D-Ala2,N-MePhe4,Gly-ol]-enkephalin (DAMGO), a selective MOR agonist, causes a fast glutamate release using sniffer patch technique. We also found that the DAMGO-induced glutamate release was not observed in the astrocytes from MOR-deficient mice and MOR-short hairpin RNA (shRNA)-expressed astrocytes. In addition, the glutamate release was significantly reduced by gene silencing of the TREK-1-containing two-pore potassium (K2P) channel, which mediates passive conductance in astrocytes. Our findings were consistent with the previous study demonstrating that activation of Gi-GPCR such as cannabinoid receptor CB1 and adenosine receptor A1 causes a glutamate release through TREK-1-containing K2P channel from hippocampal astrocytes. We also demonstrated that MOR and TREK-1 are significantly co-localized in the hippocampal astrocytes. Furthermore, we found that both MOR and TREK-1-containing K2P channels are localized in the same subcellular compartments, soma and processes, of astrocytes. Our study raises a novel possibility that astrocytic MOR may participate in several physiological and pathological actions of opioids, including analgesia and addiction, through astrocytically released glutamate and its signaling pathway.

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