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BK channels in microglia are required for morphine-induced hyperalgesia.


ABSTRACT: Although morphine is a gold standard medication, long-term opioid use is associated with serious side effects, such as morphine-induced hyperalgesia (MIH) and anti-nociceptive tolerance. Microglia-to-neuron signalling is critically involved in pain hypersensitivity. However, molecules that control microglial cellular state under chronic morphine treatment remain unknown. Here we show that the microglia-specific subtype of Ca(2+)-activated K(+) (BK) channel is responsible for generation of MIH and anti-nociceptive tolerance. We find that, after chronic morphine administration, an increase in arachidonic acid levels through the ?-opioid receptors leads to the sole activation of microglial BK channels in the spinal cord. Silencing BK channel auxiliary ?3 subunit significantly attenuates the generation of MIH and anti-nociceptive tolerance, and increases neurotransmission after chronic morphine administration. Therefore, microglia-specific BK channels contribute to the generation of MIH and anti-nociceptive tolerance.

SUBMITTER: Hayashi Y 

PROVIDER: S-EPMC4895018 | biostudies-literature | 2016 May

REPOSITORIES: biostudies-literature

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BK channels in microglia are required for morphine-induced hyperalgesia.

Hayashi Yoshinori Y   Morinaga Saori S   Zhang Jing J   Satoh Yasushi Y   Meredith Andrea L AL   Nakata Takahiro T   Wu Zhou Z   Kohsaka Shinichi S   Inoue Kazuhide K   Nakanishi Hiroshi H  

Nature communications 20160531


Although morphine is a gold standard medication, long-term opioid use is associated with serious side effects, such as morphine-induced hyperalgesia (MIH) and anti-nociceptive tolerance. Microglia-to-neuron signalling is critically involved in pain hypersensitivity. However, molecules that control microglial cellular state under chronic morphine treatment remain unknown. Here we show that the microglia-specific subtype of Ca(2+)-activated K(+) (BK) channel is responsible for generation of MIH an  ...[more]

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