Pannexin-1 channel inhibition alleviates opioid withdrawal in rodents by modulating locus coeruleus to spinal cord circuitry

Author:

Kwok Charlie H. T.,Harding Erika K.,Burma Nicole E.ORCID,Markovic Tamara,Massaly Nicolas,van den Hoogen Nynke J.ORCID,Stokes-Heck SierraORCID,Gambeta Eder,Komarek KristinaORCID,Yoon Hye JeanORCID,Navis Kathleen E.,McAllister Brendan B.ORCID,Canet-Pons Julia,Fan Churmy,Dalgarno Rebecca,Gorobets Evgueni,Papatzimas James W.ORCID,Zhang ZizhenORCID,Kohro YutaORCID,Anderson Connor L.ORCID,Thompson Roger J.,Derksen Darren J.ORCID,Morón Jose A.ORCID,Zamponi Gerald W.ORCID,Trang TuanORCID

Abstract

AbstractOpioid withdrawal is a liability of chronic opioid use and misuse, impacting people who use prescription or illicit opioids. Hyperactive autonomic output underlies many of the aversive withdrawal symptoms that make it difficult to discontinue chronic opioid use. The locus coeruleus (LC) is an important autonomic centre within the brain with a poorly defined role in opioid withdrawal. We show here that pannexin-1 (Panx1) channels expressed on microglia critically modulate LC activity during opioid withdrawal. Within the LC, we found that spinally projecting tyrosine hydroxylase (TH)-positive neurons (LCspinal) are hyperexcitable during morphine withdrawal, elevating cerebrospinal fluid (CSF) levels of norepinephrine. Pharmacological and chemogenetic silencing of LCspinal neurons or genetic ablation of Panx1 in microglia blunted CSF NE release, reduced LC neuron hyperexcitability, and concomitantly decreased opioid withdrawal behaviours in mice. Using probenecid as an initial lead compound, we designed a compound (EG-2184) with greater potency in blocking Panx1. Treatment with EG-2184 significantly reduced both the physical signs and conditioned place aversion caused by opioid withdrawal in mice, as well as suppressed cue-induced reinstatement of opioid seeking in rats. Together, these findings demonstrate that microglial Panx1 channels modulate LC noradrenergic circuitry during opioid withdrawal and reinstatement. Blocking Panx1 to dampen LC hyperexcitability may therefore provide a therapeutic strategy for alleviating the physical and aversive components of opioid withdrawal.

Funder

Gouvernement du Canada | Canadian Institutes of Health Research

Gouvernement du Canada | Natural Sciences and Engineering Research Council of Canada

Publisher

Springer Science and Business Media LLC

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