A Phase 1 Trial of pharmacologic interactions between transdermal selegiline and a 4-hour cocaine infusion

BackgroundThe selective MAO-B inhibitor selegiline has been evaluated in clinical trials as a potential medication for the treatment of cocaine dependence. This study evaluated the safety of and pharmacologic interactions between 7 days of transdermal selegiline dosed with patches (Selegiline Transdermal System, STS) that deliver 6 mg/24 hours and 2.5 mg/kg of cocaine administered over 4 hours.MethodsTwelve nondependent cocaine-experienced subjects received deuterium-labeled cocaine-d5 intravenously (IV) 0.5 mg/kg over 10 minutes followed by 2 mg/kg over 4 hours before and after one week of transdermal selegiline 6 mg/24 hours. Plasma and urine were collected for analysis of selegiline, cocaine, catecholamine and metabolite concentrations. Pharmacodynamic measures were obtained.ResultsSelegiline did not change cocaine pharmacokinetic parameters. Selegiline administration increased phenylethylamine (PEA) urinary excretion and decreased urinary MHPG-sulfate concentration after cocaine when compared to cocaine alone. No serious adverse effects occurred with the combination of selegiline and cocaine, and cocaine-induced physiological effects were unchanged after selegiline. Only 1 peak subjective cocaine effects rating changed, and only a few subjective ratings decreased across time after selegiline.ConclusionNo pharmacological interaction occurred between selegiline and a substantial dose of intravenous cocaine, suggesting the combination will be safe in pharmacotherapy trials. Selegiline produced few changes in subjective response to the cocaine challenge perhaps because of some psychoactive neurotransmitters changing in opposite directions

Operant ethanol self-administration increases extracellular-signal regulated protein kinase (ERK) phosphorylation in reward-related brain regions: selective regulation of positive reinforcement in the prefrontal cortex of C57BL/6J mice

RATIONALE: Extracellular-signal regulated protein kinase (ERK1/2) is activated by ethanol in reward-related brain regions. Accordingly, systemic inhibition of ERK1/2 potentiates ethanol reinforcement. However, the brain region(s) that mediate this effect are unknown. OBJECTIVE: To pharmacologically inhibit ERK1/2 in the medial prefrontal cortex (PFC), nucleus accumbens (NAC) and amygdala (AMY) prior to ethanol or sucrose self-administration, and evaluate effects of operant ethanol self-administration on ERK1/2 phosphorylation (pERK1/2). METHODS: Male C57BL/6J mice were trained to lever press on a fixed-ratio-4 schedule of 9% ethanol+2% sucrose (ethanol) or 2% sucrose (sucrose) reinforcement. Mice were sacrificed immediately after the 30(th) self-administration session and pERK1/2 immunoreactivity was quantified in targeted brain regions. Additional groups of mice were injected with SL 327 (0–1.7 μg/side) in PFC, NAC or AMY prior to self-administration. RESULTS: pERK1/2 immunoreactivity was significantly increased by operant ethanol (g/kg=1.21 g/kg; BAC=54.9 mg/dl) in the PFC, NAC (core and shell), and AMY (central nucleus) as compared to sucrose. Microinjection of SL 327 (1.7 μg) into the PFC selectively increased ethanol self-administration. Intra-NAC injection of SL 327 had no effect on ethanol- but suppressed sucrose-reinforced responding. Intra-AMY microinjection of SL 327 had no effect on either ethanol- or sucrose-reinforced responding. Locomotor activity was unaffected under all conditions. CONCLUSIONS: Operant ethanol self-administration increases pERK1/2 activation in the PFC, NAC and AMY. However, ERK1/2 activity only in the PFC mechanistically regulates ethanol self-administration. These data suggest that ethanol-induced activation of ERK1/2 in the PFC is a critical pharmacological effect that mediates the reinforcing properties of the drug