A novel delta opioid receptor specific peptide reduces craving in an animal model of cocaine seeking

Substance use disorder, and particularly cocaine use disorder, is a complex disease that affects societal, economic, and psychological factors. Endogenous (3-endorphin released after prolonged cocaine withdrawal has been reported to activate the accumbal delta-opioid receptor (DOR), leading to attenuated cocaine seeking. However, using DOR (3-endorphin activation to treat cocaine use disorder is impractical since (3-endorphin does not cross the blood-brain barrier. Also, only activation of the sub-group DOR1 efficiently attenuates craving, as activation of DOR2 yields an opposite effect. Here, we isolated a specific peptide, PEP1, from a phage display peptide library with similar biological properties to (3-endorphin, demonstrating specificity for DOR1 and functioning as full receptor agonists. Our pharmacodynamic results showed fast trafficking incorporation of DOR into the cell membrane, interpreted as superior rehabilitation of the receptor and its bioavailability compared to commercial agonists. We administered PEP1, either intrabrain or intranasal, to rats trained to self-administer cocaine. PEP1 induced a significant decrease in cocaine-craving behavior and reinstatement in three different animal models of addiction. Also, PEP1 did not exhibit rewarding properties and did not interfere with the natural reward system. ICP-OES analysis revealed that at least one hour post-administration, PEP1 was retained in the brain rather than in peripheral organs. These findings render PEP1 a potential novel regulator of cocaine craving, especially for being non-addictive. Hence, PEP1 should be further examined as a possible new therapy for substance use disorder.