Dynorphin A activates bradykinin receptors to maintain neuropathic pain

Josephine Lai; Miaw Chyi Luo; Qingmin Chen; Shouwu Ma; Luis R. Gardell; Michael H. Ossipov; Frank Porreca

doi:10.1038/nn1804

Dynorphin A activates bradykinin receptors to maintain neuropathic pain

Josephine Lai, Miaw Chyi Luo, Qingmin Chen, Shouwu Ma, Luis R. Gardell, Michael H. Ossipov, Frank Porreca

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128 Scopus citations

Abstract

Dynorphin A is an endogenous opioid peptide that produces non-opioid receptor-mediated neural excitation. Here we demonstrate that dynorphin induces calcium influx via voltage-sensitive calcium channels in sensory neurons by activating bradykinin receptors. This action of dynorphin at bradykinin receptors is distinct from the primary signaling pathway activated by bradykinin and underlies the hyperalgesia produced by pharmacological administration of dynorphin by the spinal route in rats and mice. Blockade of spinal B1 or B2 receptor also reverses persistent neuropathic pain but only when there is sustained elevation of endogenous spinal dynorphin, which is required for maintenance of neuropathic pain. These data reveal a mechanism for endogenous dynorphin to promote pain through its agonist action at bradykinin receptors and suggest new avenues for therapeutic intervention.

Original language	English (US)
Pages (from-to)	1534-1540
Number of pages	7
Journal	Nature neuroscience
Volume	9
Issue number	12
DOIs	https://doi.org/10.1038/nn1804
State	Published - Dec 2006

ASJC Scopus subject areas

General Neuroscience

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title = "Dynorphin A activates bradykinin receptors to maintain neuropathic pain",

abstract = "Dynorphin A is an endogenous opioid peptide that produces non-opioid receptor-mediated neural excitation. Here we demonstrate that dynorphin induces calcium influx via voltage-sensitive calcium channels in sensory neurons by activating bradykinin receptors. This action of dynorphin at bradykinin receptors is distinct from the primary signaling pathway activated by bradykinin and underlies the hyperalgesia produced by pharmacological administration of dynorphin by the spinal route in rats and mice. Blockade of spinal B1 or B2 receptor also reverses persistent neuropathic pain but only when there is sustained elevation of endogenous spinal dynorphin, which is required for maintenance of neuropathic pain. These data reveal a mechanism for endogenous dynorphin to promote pain through its agonist action at bradykinin receptors and suggest new avenues for therapeutic intervention.",

author = "Josephine Lai and Luo, {Miaw Chyi} and Qingmin Chen and Shouwu Ma and Gardell, {Luis R.} and Ossipov, {Michael H.} and Frank Porreca",

note = "Funding Information: This work was supported by a grant from the National Institute on Drug Abuse. The authors appreciate the technical assistance of Y. Kawamoto on DRG cultures and H. Badghisi on the PI hydrolysis assay.",

year = "2006",

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doi = "10.1038/nn1804",

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T1 - Dynorphin A activates bradykinin receptors to maintain neuropathic pain

AU - Lai, Josephine

AU - Luo, Miaw Chyi

AU - Chen, Qingmin

AU - Ma, Shouwu

AU - Gardell, Luis R.

AU - Ossipov, Michael H.

AU - Porreca, Frank

N1 - Funding Information: This work was supported by a grant from the National Institute on Drug Abuse. The authors appreciate the technical assistance of Y. Kawamoto on DRG cultures and H. Badghisi on the PI hydrolysis assay.

PY - 2006/12

Y1 - 2006/12

N2 - Dynorphin A is an endogenous opioid peptide that produces non-opioid receptor-mediated neural excitation. Here we demonstrate that dynorphin induces calcium influx via voltage-sensitive calcium channels in sensory neurons by activating bradykinin receptors. This action of dynorphin at bradykinin receptors is distinct from the primary signaling pathway activated by bradykinin and underlies the hyperalgesia produced by pharmacological administration of dynorphin by the spinal route in rats and mice. Blockade of spinal B1 or B2 receptor also reverses persistent neuropathic pain but only when there is sustained elevation of endogenous spinal dynorphin, which is required for maintenance of neuropathic pain. These data reveal a mechanism for endogenous dynorphin to promote pain through its agonist action at bradykinin receptors and suggest new avenues for therapeutic intervention.

AB - Dynorphin A is an endogenous opioid peptide that produces non-opioid receptor-mediated neural excitation. Here we demonstrate that dynorphin induces calcium influx via voltage-sensitive calcium channels in sensory neurons by activating bradykinin receptors. This action of dynorphin at bradykinin receptors is distinct from the primary signaling pathway activated by bradykinin and underlies the hyperalgesia produced by pharmacological administration of dynorphin by the spinal route in rats and mice. Blockade of spinal B1 or B2 receptor also reverses persistent neuropathic pain but only when there is sustained elevation of endogenous spinal dynorphin, which is required for maintenance of neuropathic pain. These data reveal a mechanism for endogenous dynorphin to promote pain through its agonist action at bradykinin receptors and suggest new avenues for therapeutic intervention.

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Dynorphin A activates bradykinin receptors to maintain neuropathic pain

Abstract

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