Journal
NEUROPHARMACOLOGY
Volume 93, Issue -, Pages 267-273Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.neuropharm.2015.02.011
Keywords
Nociceptive axon; Calcium imaging; BK channels; mu-Opioid; N-type calcium channels; Pain
Categories
Funding
- Canadian Institutes of Health Research
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While mu-opioid receptor (MOR) agonists remain the most powerful analgesics for the treatment of severe pain, serious adverse side effects that are secondary to their central nervous system actions pose substantial barriers to therapeutic use. Preclinical and clinical evidence suggest that peripheral MORs play an important role in opioid analgesia, particularly under inflammatory conditions. However, the mechanisms of peripheral MOR signaling in primary afferent pain fibres remain to be established. We have recently introduced a novel ex vivo optical imaging approach that, for the first time, allows the study of physiological functioning within individual peripheral nociceptive fibre free nerve endings in mice. In the present study, we found that MOR activation in selectively identified, primary afferent CGRP nociceptive terminals caused inhibition of N-type Ca2+ channel signaling and suppression of action potential-evoked Ca2+ fluorescent transients mediated by 'big conductance' Ca2+-activated K+ channels (BICCa). In the live animal, we showed that the peripherally acting MOR agonist HS-731 produced analgesia and that BKCa channels were the major effectors of the peripheral MOR signaling. We have identified two key molecular transducers of MOR activation that mediate significant inhibition of nociceptive signaling in primary afferent terminals. Understanding the mechanisms of peripheral MOR signaling may promote the development of pathway selective mu-opioid drugs that offer improved therapeutic profiles for achieving potent analgesia while avoiding serious adverse central side effects. (C) 2015 Elsevier Ltd. All rights reserved.
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