Effects of the selective sigma receptor ligand, 6-[6-(4-hydroxypiperidinyl)hexyloxy]-3-methylflavone (NPC 16377), on behavioral and toxic effects of cocaine.

Certain sigma receptor ligands have been shown to block locomotor stimulation produced by cocaine at doses that do not have significant behavioral activity when given alone. Using a potent and selective ligand of sigma binding sites, 6-[6-(4-hydroxypiperidinyl)hexyloxy]-3-methylflavone (NPC 16377), we further investigated the influence of sigma ligands on additional behavioral and toxic effects of cocaine in mice. A behaviorally inactive dose of NPC 16377 shifted the dose-effect function for the locomotor stimulant effects of cocaine to the right by a factor of 2.5. A higher dose of NPC 16377 produced an insurmountable blockade of this stimulant effect of cocaine. Prior exposure to cocaine enhances the locomotor stimulant effects of cocaine (sensitization). NPC 16377 prevented the development of cocaine sensitization without producing behavioral effects of its own. However, NPC 16377 was unable to block the expression of sensitization in mice previously exposed to cocaine. NPC 16377 also did not consistently alter the discriminative stimulus effects of cocaine or methamphetamine in rats discriminating either 3 or 10 mg/kg of cocaine, or 1 mg/kg of methamphetamine from saline. The potential phencyclidine-like behavioral effects of NPC 16377 were also evaluated. Unlike the NMDA channel ligand, dizocilpine, NPC 16377 did not increase responding under a fixed-interval schedule of food presentation in rats nor did it substitute for the discriminative stimulus effects of either 1.5 mg/kg of phencyclidine or 0.2 mg/kg of dizocilpine in rats discriminating these drugs from saline. NPC 16377 displayed limited but significant anticonvulsant activity against diazepam-sensitive cocaine convulsions. The lethal effects of higher doses of cocaine were neither significantly blocked nor enhanced in rats or mice with NPC 16377. These findings extend earlier observations on the cocaine-blocking effects of sigma ligands to a novel structure with exceptional selectivity for sigma sites. These data indicate that some sigma ligands may be capable of altering certain behavioral and toxic actions of cocaine without notable behavioral side effects as evidenced in preclinical tests. As such, these compounds may ultimately be useful in the treatment of cocaine abuse.