期刊
PAIN
卷 155, 期 3, 页码 617-628出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.pain.2013.12.018
关键词
Spinal cord; Noradrenaline; Alpha2 adrenoceptor; Patch-clamp analysis; Dexmedetomidine
资金
- Ministry of Education, Science, Sports and Culture of Japan
- Grants-in-Aid for Scientific Research [23390156, 24592355, 24390148, 25670289, 25462448, 25860431] Funding Source: KAKEN
alpha(2)-Adrenoceptors are widely distributed throughout the central nervous system (CNS) and the systemic administration of alpha(2)-agonists such as dexmedetomidine produces clinically useful, centrally mediated sedation and analgesia; however, these same actions also limit the utility of these agents (ie, unwanted sedative actions). Despite a wealth of data on cellular and synaptic actions of alpha(2)-agonists in vitro, it is not known which neuronal circuits are modulated in vivo to produce the analgesic effect. To address this issue, we made in vivo recordings of membrane currents and synaptic activities in superficial spinal dorsal horn neurons and examined their responses to systemic dexmedetomidine. We found that dexmedetomidine at doses that produce analgesia (<10 mu g/kg) enhanced inhibitory postsynaptic transmission within the superficial dorsal horn without altering excitatory synaptic transmission or evoking direct postsynaptic membrane currents. In contrast, higher doses of dexmedetomidine (>10 mu g/kg) induced outward currents by a direct postsynaptic action. The dexmedetomidine-mediated inhibitory postsynaptic current facilitation was not mimicked by spinal application of dexmedetomidine and was absent in spinalized rats, suggesting that it acts at a supraspinal site. Furthermore, it was inhibited by spinal application of the alpha(1)-antagonist prazosin. In the brainstem, low doses of systemic dexmedetomidine produced an excitation of locus coeruleus neurons. These results suggest that systemic alpha(2)-adrenoceptor stimulation may facilitate inhibitory synaptic responses in the superficial dorsal horn to produce analgesia mediated by activation of the pontospinal noradrenergic inhibitory system. This novel mechanism may provide new targets for intervention, perhaps allowing analgesic actions to be dissociated from excessive sedation. (C) 2014 International Association for the Study of Pain. Published by Elsevier B.V. All rights reserved.
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