Preclinical Profile of CM699 as a Medication Candidate for Stimulant Use Disorder.

There currently are no medications proven to be effective for the treatment of stimulant-use disorder (SUD). Sigma-receptor (σR) antagonists block many effects of stimulant drugs but not the reinforcing effects assessed with self-administration in rats. However, a recent study suggests that σR antagonism combined with a dopamine (DA) transporter (DAT) blockade selectively attenuates stimulant self-administration. A compound with potential for dual DAT/σR inhibition, CM699, was synthesized and had the necessary ex vivo affinities of 311 and 14.1 nM at DAT and σ(1)Rs, respectively. CM699 inhibited DA uptake ex vivo. Antagonist effects at σ(1)Rs by CM699 were confirmed with a recently reported pharmacological assay: CM699 increased, whereas the σ(1)R agonist, (+)-pentazocine, decreased σ(1)R multimers detected in nondenaturing protein gels, and CM699 blocked the effects of (+)-pentazocine. CM699 after intravenous administration (5.0 mg/kg) in rats had an elimination half-life of 4.4 h. In rats, CM699 after intraperitoneal administration blunted the stimulatory effects of cocaine on DA levels in the nucleus accumbens and insurmountably blocked cocaine self-administration, indicating efficacy as a cocaine antagonist in vivo. When given alone, CM699 was not self-administered nor had significant effects on nucleus accumbens DA, suggesting minimal, if any, abuse potential. Further, in a biochemical assay designed to probe the conformation of DAT, (+)-pentazocine potentiated cocaine-induced cysteine accessibility of DAT transmembrane domain 6a, suggesting a shift in the conformational equilibrium of DAT toward outward-facing, whereas CM699 blocked this effect. The results provide preclinical proof of concept for dual DAT/σR inhibition as a novel DAT-conformational approach for the development of medications to treat SUD.