Abstract
Cocaine addiction is a widespread psychiatric condition still waiting for approved efficacious medications. Previous studies suggested that simultaneous activation of nociceptin opioid (NOP) and mu opioid (MOP) receptors could be a successful strategy to treat cocaine addiction, but the paucity of molecules co-activating both receptors with comparable potency has hampered this line of research. Cebranopadol is a non-selective opioid agonist that at nanomolar concentration activates both NOP and MOP receptors and that recently reached phase-III clinical trials for cancer pain treatment. Here, we tested the effect of cebranopadol on cocaine self-administration (SA) in the rat. We found that under a fixed-ratio-5 schedule of reinforcement, cebranopadol (25 and 50 µg/kg) decreased cocaine but not saccharin SA, indicating a specific inhibition of psychostimulant consumption. In addition, cebranopadol (50 µg/kg) decreased the motivation for cocaine as detected by reduction of the break point measured in a progressive-ratio paradigm. Next, we found that cebranopadol retains its effect on cocaine consumption throughout a 7-day chronic treatment, suggesting a lack of tolerance development toward its effect. Finally, we found that only simultaneous blockade of NOP and MOP receptors by concomitant administration of the NOP antagonist SB-612111 (30 mg/kg) and naltrexone (2.5 mg/kg) reversed cebranopadol-induced decrease of cocaine SA, demonstrating that cebranopadol activates both NOP and classical opioid receptors to exert its effect. Our data, together with the fairly advanced clinical development of cebranopadol and its good tolerability profile in humans, indicate that cebranopadol is an appealing candidate for cocaine addiction treatment.
Highlights
Cocaine is a widely abused illicit drug with a worldwide prevalence of 0.4%, accounting for 14–20 million individuals who have used cocaine in their lifetime [1]
When the effect of cebranopadol on motivation for cocaine was evaluated under PR contingency, overall analysis of variance (ANOVA) of the break points found an overall effect of doses [F(2, 7) = 6.915, p < 0.01]
The effect of cebranopadol was substance-specific because when we tested cebranopadol on saccharin SA, we found a slight increase in lever pressing at the lowest dose and no changes at the highest dose
Summary
Cocaine is a widely abused illicit drug with a worldwide prevalence of 0.4%, accounting for 14–20 million individuals who have used cocaine in their lifetime [1]. Cebranopadol Reduces Cocaine Intake for medication of cocaine addiction due to its anti-rewarding properties and limited side effects of NOP agonists [3,4,5,6,7]. Nociceptin is the endogenous ligand of the NOP that has been proven to inhibit cocaine-induced conditioned place preference (CPP) in the rat [8] and NOP knockout (KO) mice showed higher cocaine-induced CPP than their wild-type counterparts [9]. Nociceptin abolished cocaine-elicited psychomotor sensitization in wild type but not NOP KO mice [10]. NOP agonists have limited abuse liability [12], representing promising tools for the treatment of cocaine addiction. Direct evidence of the effect of NOP agonists on cocaine self-administration (SA) is still lacking
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