Rewarding and reinforcing effects of two dissociative-based new psychoactive substances, deschloroketamine and diphenidine, in mice

Dissociative-based new psychoactive substances (NPSs) are increasingly available through the Internet, and public health problems related to the recreational use of these substances have been increasing globally. Two such NPSs are deschloroketamine and diphenidine, which are primarily used recreationally as ketamine substitutes. However, there is little scientific evidence to describe the dependence liability of NPSs. This study aimed to evaluate the dependence liability of deschloroketamine and diphenidine via animal behavioral experiments. We evaluated the rewarding and reinforcing effects of these NPSs using the conditioned place preference (CPP) and the self-administration (SA) paradigms in mice. Psychomotor effects and behavioral features of these compounds were assessed by quantifying locomotor activity, stereotypic movements, and dopaminergic neurotransmission. Both deschloroketamine (10 mg/kg) and diphenidine (10–60 mg/kg) produced increased locomotor activation and stereotypy that were similar to the effects of ketamine (10 mg/kg). Both deschloroketamine (10 mg/kg) and diphenidine (10, 20 mg/kg) increased the animals' preference for the drug-paired compartment in the CPP testing. In the SA testing, deschloroketamine (1 mg/kg/infusion) increased the number of active lever presses and the number of infusions received, whereas diphenidine administration (1, 2 mg/kg/infusion) did not alter either of these. Furthermore, both deschloroketamine and diphenidine increased dopamine levels in PC-12 cells. Collectively, the data suggest that deschloroketamine may have both rewarding and reinforcing effects, whereas diphenidine only induced rewarding effect. •We evaluated the abuse liabilities of DCK and DPH.•Drug-induced psychomotor and dopaminergic effects were compared with ketamine.•Both DCK and DPH increased psychomotor activity, similar to ketamine.•DCK and DPH modulated dopamine levels in PC-12 cells.•Both DCK and DPH have rewarding and/or reinforcing effects in mice.