Heather L. Kimmel

CART peptides are modulators of mesolimbic dopamine and psychostimulants

CART peptide produces behavioral effects when injected into the VTA or nucleus accumbens. In the VTA, the peptide behaves like an endogenous psychostimulant and produces increased locomotor activity and conditioned place preference. Since this is blocked by dopamine receptor blockers, it presumably involves release of dopamine. But in the nucleus accumbens, CART peptide reduces the locomotor-increasing effects of cocaine. This suggests that the peptide is an interesting target for medications development.

Effects of Combined Dopamine and Serotonin Transporter Inhibitors on Cocaine Self-Administration in Rhesus Monkeys

Dopamine transporter (DAT) inhibitors may represent a promising class of drugs in the development of cocaine pharmacotherapies. In the present study, the effects of pretreatments with the selective DAT inhibitor 3β-(4-chlorophenyl)tropane-2β-[3-(4′-methylphenyl)isoxazol-5-yl] hydrochloride (RTI-336) (0.3–1.7 mg/kg) were characterized in rhesus monkeys trained to self-administer cocaine (0.1 and 0.3 mg/kg/injection) under a multiple second-order schedule of i.v. drug or food delivery. In addition, RTI-336 (0.01–1.0 mg/kg/injection) was substituted for cocaine to characterize its reinforcing effects. Last, the dose of RTI-336 that reduced cocaine-maintained behavior by 50% (ED50) was coadministered with the selective serotonin transporter (SERT) inhibitors fluoxetine (3.0 mg/kg) and citalopram (3.0 mg/kg) to characterize their combined effects on cocaine self-administration. PET neuroimaging with the selective DAT ligand [18F]8-(2-[18F]fluoroethyl)-2β-carbomethoxy-3β-(4-chlorophenyl)nortropane quantified DAT occupancy at behaviorally relevant doses of RTI-336. Pretreatments of RTI-336 produced dose-related reductions in cocaine self-administration, and the ED50 dose resulted in approximately 90% DAT occupancy. RTI-336 was reliably self-administered, but responding maintained by RTI-336 was lower than responding maintained by cocaine. Doses of RTI-336 that maintained peak rates of responding resulted in approximately 62% DAT occupancy. Co-administration of the ED50 dose of RTI-336 in combination with either SERT inhibitor completely suppressed cocaine self-administration without affecting DAT occupancy. Hence, at comparable levels of DAT occupancy, coadministration of SERT inhibitors with RTI-336 produced more robust reductions in cocaine self-administration compared with RTI-336 alone. Collectively, the results indicate that combined inhibition of DAT and SERT warrants consideration as a viable approach in the development of cocaine medications.

Chronic Interferon- α Decreases Dopamine 2 Receptor Binding and Striatal Dopamine Release in Association with Anhedonia-Like Behavior in Nonhuman Primates

Neuroimaging studies in humans have demonstrated that inflammatory cytokines target basal ganglia function and presynaptic dopamine (DA), leading to symptoms of depression. Cytokine-treated nonhuman primates also exhibit evidence of altered DA metabolism in association with depressive-like behaviors. To further examine cytokine effects on striatal DA function, eight rhesus monkeys (four male, four female) were administered interferon (IFN)-α (20 MIU/m2 s.c.) or saline for 4 weeks. In vivo microdialysis was used to investigate IFN-α effects on DA release in the striatum. In addition, positron emission tomography (PET) with [11C]raclopride was used to examine IFN-α-induced changes in DA2 receptor (D2R) binding potential before and after intravenous amphetamine administration. DA transporter binding was measured by PET using [18F]2β-carbomethoxy-3β-(4-chlorophenyl)-8-(2-fluoroethyl)nortropane. Anhedonia-like behavior (sucrose consumption) was assessed during saline and IFN-α administration. In vivo microdialysis demonstrated decreased release of DA after 4 weeks of IFN-α administration compared with saline. PET neuroimaging also revealed decreased DA release after 4 weeks of IFN-α as evidenced by reduced displacement of [11C]raclopride following amphetamine administration. In addition, 4 weeks of IFN-α was associated with decreased D2R binding but no change in the DA transporter. Sucrose consumption was reduced during IFN-α administration and was correlated with decreased DA release at 4 weeks as measured by in vivo microdialysis. Taken together, these findings indicate that chronic peripheral IFN-α exposure reduces striatal DA release in association with anhedonia-like behavior in nonhuman primates. Future studies examining the mechanisms of cytokine effects on DA release and potential therapeutic strategies to reverse these changes are warranted.

Faster onset and dopamine transporter selectivity predict stimulant and reinforcing effects of cocaine analogs in squirrel monkeys

Although the behavioral-stimulant and reinforcing effects of cocaine and related psychomotor stimulants have been attributed to their actions at the dopamine transporter (DAT), the reinforcing effectiveness of these compounds varies. The properties that confer these differences are important considerations when developing agonist pharmacotherapies for the treatment of stimulant abuse. The present studies focused on the time course of action and pharmacological specificity of six 3-phenyltropane analogs of cocaine (RTI-112, RTI-126, RTI-150, RTI-171, RTI-177, and RTI-336) by observing their behavioral-stimulant, neurochemical, and reinforcing effects in squirrel monkeys. The faster-onset analogs (RTI-126, RTI-150, and RTI-336), and one of the slower-onset DAT selective analogs (RTI-177 and RTI-171) produced behavioral-stimulant effects, while the slower-onset nonselective analog RTI-112 did not. The time to the peak behavioral-stimulant effect and the peak caudate dopamine levels was strongly correlated, but the area under the curve of the time course of behavioral-stimulant effect and dopamine levels was not correlated. These results suggest that the rate of onset plays a more important role than duration of action in the stimulant effect of these analogs. In addition, the slower-onset nonselective analog (RTI-112) clearly did not exhibit any reinforcing effects while the faster-onset nonselective (RTI-126) and all the DAT-selective analogs showed robust reinforcing effects (RTI-150, and RTI-177) or showed trends towards reinforcing effects (RTI-336 and RTI-171). Hence, there was a general trend for compounds that had a faster onset and/or DAT selectivity to produce significant behavioral-stimulant and reinforcing effects.

Effects of Serotonin 2C Receptor Agonists on the Behavioral and Neurochemical Effects of Cocaine in Squirrel Monkeys

Accumulating evidence indicates that the serotonin system modulates the behavioral and neurochemical effects of cocaine, but the receptor subtypes mediating these effects remain unknown. Recent studies have demonstrated that pharmacological activation of the serotonin 2C receptor (5-HT2CR) attenuates the behavioral and neurochemical effects of cocaine in rodents, but such compounds have not been systematically evaluated in nonhuman primates. The present experiments sought to determine the impact of pretreatment with the preferential 5-HT2CR agonist m-chlorophenylpiperazine (mCPP) and the selective 5-HT2CR agonist Ro 60-0175 [(α-S)-6-chloro-5-fluoro-α-methyl-1H-indole-1-ethanamine fumarate] on the behavioral and neurochemical effects of cocaine in squirrel monkeys. In subjects trained to lever-press according to a 300-s fixed-interval schedule of stimulus termination, pretreatment with either 5-HT2CR agonist dose-dependently and insurmountably attenuated the behavioral stimulant effects of cocaine. In subjects trained to self-administer cocaine, both compounds dose-dependently and insurmountably attenuated cocaine-induced reinstatement of previously extinguished responding in an antagonist-reversible manner, and the selective agonist Ro 60-0175 also attenuated the reinforcing effects of cocaine during ongoing cocaine self-administration. It is noteworthy that the selective agonist Ro 60-0175 exhibited behavioral specificity because it did not significantly alter nondrug-maintained responding. Finally, in vivo microdialysis studies revealed that pretreatment with Ro 60-0175 caused a reduction of cocaine-induced dopamine increases within the nucleus accumbens, but not the caudate nucleus. These results suggest that 5-HT2CR agonists functionally antagonize the behavioral effects of cocaine in nonhuman primates, possibly via a selective modulation of cocaine-induced dopamine increases within the mesolimbic dopamine system and may therefore represent a novel class of pharmacotherapeutics for the treatment of cocaine abuse.

Theory and statistics of detecting synergism between two active drugs: cocaine and buprenorphine

Abstract This article discusses the theory and statistical aspects in the design and analysis of experiments to detect synergism between two drugs that produce overtly similar effects. The current analysis extends and simplifies previously published work in this area. Application is made to a study by Kimmel et al. in this issue that examined the combined action of buprenorphine and cocaine in producing turning in rats having unilateral nigrostriatal lesions produced by 6-hydroxydopamine. The use of turning as an endpoint is unusual in quantitative studies of synergism in that no clear maximum effect (turning), could be elicited. Data from the turning study are analyzed statistically and reveal that the combination of buprenorphine and cocaine in each of two fixed ratio mixtures tested is synergistic for this effect.

Activity of various CART peptides in changing locomotor activity in the rat.

Several CART (cocaine- and amphetamine-regulated transcript) peptides have been identified in the brain. One peptide, rlCART 55-102, has been previously characterized in locomotor and feeding assays in rodents. The present study characterized the locomotor-stimulating effect of several additional CART peptides after intra-VTA administration in rats. The results confirm earlier findings that intra-VTA administration of rlCART 55-102 dose-dependently increased locomotor activity. Intra-VTA administration of rlCART 62-102 increased activity comparable with that produced by rlCART 55-102. However, intra-VTA administration of rsCART 10-89 and rlCART 55-59 did not increase motor activity. These results suggest that the portion of rlCART 55-102 responsible for increasing motor activity must reside within the portion of the protein also encompassed by rlCART 61-102, as the initial 5-amino acid sequence of rlCART 55-102 did not increase motor activity. In summary, rlCART 55-102 and rlCART 62-102 are behaviorally active in this locomotor assay, while rsCART 10-89 and rlCART 55-59 are not.

Relationship between rate of drug uptake in brain and behavioral pharmacology of monoamine transporter inhibitors in rhesus monkeys

Although inhibition of dopamine transporters (DAT) and the subsequent increase in dopamine clearly play a role in the effects of psychomotor stimulants, the reinforcing effectiveness of DAT inhibitors varies. Previous studies suggest that pharmacokinetic and pharmacodynamic properties of these drugs account for this variability. The present studies compared the time course and behavioral effects of five phenyltropane analogs of cocaine with high affinity for DAT and varying time courses of action in rhesus monkeys. The rate of drug uptake in putamen was measured using positron emission tomography neuroimaging. The rank order of the time to peak drug uptake was cocaine<RTI-336<RTI-150<RTI-113<RTI-177. Cocaine and all five analogs fully substituted for the cocaine cue in animals trained to discriminate cocaine from saline. All of the drugs were self-administered under a progressive-ratio schedule of drug self-administration and reinstated previously extinguished self-administration maintained under a second-order schedule. The time to peak drug uptake corresponded closely with the time to peak discriminative stimulus effects, and there was a trend for the time of peak drug uptake to correspond negatively with the peak number of drug infusions. Collectively, these results indicate that the rate of drug entry in brain can play an important role in the behavioral pharmacology of psychomotor stimulants.

Intra-VTA CART 55-102 reduces the locomotor effect of systemic cocaine in rats: an isobolographic analysis

CART (cocaine- and amphetamine-regulated transcript) peptides appear to be mediators or modulators of psychostimulant drugs. An interesting result in the nucleus accumbens has been that injection of CART peptide has no effect by itself on locomotor activity, but it reduces the locomotor activity induced by cocaine or amphetamine. However, in the ventral tegmental area (VTA), injections of CART peptide have been shown to increase locomotor activity, although to a lesser degree [Kimmel, H.L., Gong, W., Vechia, S.D., Hunter, R.G., Kuhar, M.J., 2000. Intra-ventral tegmental area injection of rat cocaine and amphetamine-regulated transcript peptide 55-102 induces locomotor activity and promotes conditioned place preference. J. Pharmacol. Exp. Ther. 294, 784-792]. This study was carried out to clarify the interaction of intra-VTA CART 55-102 and systemic cocaine on locomotor activity. The CART-cocaine interaction has been examined using the rigorous isobolographic approach. This type of analysis permits an assessment of additivity, subadditivity, or synergism of two substances. By measuring locomotor activity and using a range of doses of CART peptide and cocaine, both alone and together, with different dosing strategies, clear evidence of subadditivity was found. CART reduced the locomotor activating effects of systemic cocaine, especially at higher doses of CART. These results imply that intra-VTA CART is not simply acting in the same manner as cocaine, and is likely to oppose the action of cocaine. This has implications for the physiological significance of CART-DA (dopamine) interactions and for medications development.

Dopamine transporter synthesis and degradation rate in rat striatum and nucleus accumbens using RTI-76.

Intracerebroventricular injections of the irreversible dopamine transporter (DAT) inhibitor, RTI-76 [3beta-(3-p-chlorophenyl) tropan-2beta-carboxylic acid p-isothiocyanatophenylethyl ester hydrochloride], decreased DAT binding in both the striatum and nucleus accumbens as measured by both [3H]GBR12935 and by [3H]WIN35,428. This decrease was dose-related, with 100 nmol RTI-76 producing approximately a 50% decrease in both regions. The maximal inhibition of DAT binding was observed 24 h after RTI-76 injection, and binding was fully restored 7 days after injection. The DAT protein half-life determined under these conditions was about 2 days. [3H]Nisoxetine binding at norepinephrine transporters in the cortex was not altered by RTI-76 administration at any time point or dose examined.