The interaction of cocaethylene and cocaine and of cocaethylene and alcohol on schedule-controlled responding in rats

Cocaethylene is a unique metabolite of cocaine, produced only in the presence of alcohol. This metabolite is pharmacologically, physiologically and behaviorally active. Further, it has been reported to interact pharmacokinetically with both cocaine and alcohol, an interaction that may mediate, in pa...

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Bibliographic Details
Published in:Psychopharmacologia 1999-07, Vol.145 (2), p.153-161
Main Authors: SOBEL, B.-F. X, RILEY, A. L
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
cocaethylene
Cocaine - analogs & derivatives
Cocaine - pharmacology
Conditioning, Operant - drug effects
Dose-Response Relationship, Drug
Drug addictions
Drug Interactions
Ethanol - pharmacology
Female
Medical sciences
Rats
Rats, Long-Evans
Toxicology
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Summary:Cocaethylene is a unique metabolite of cocaine, produced only in the presence of alcohol. This metabolite is pharmacologically, physiologically and behaviorally active. Further, it has been reported to interact pharmacokinetically with both cocaine and alcohol, an interaction that may mediate, in part, the interaction of cocaine and alcohol. Although cocaethylene has been shown to interact with both cocaine and alcohol, behavioral assessments of these interactions are limited. To examine directly the behavioral interactions between cocaethylene and cocaine and between cocaethylene and alcohol, the present study assessed the effects produced by these combinations on schedule-controlled responding. Rats were first administered cumulative doses of cocaethylene, cocaine and alcohol to assess their effects alone on responding. Following this, doses of cocaethylene were combined with cumulative doses of cocaine or alcohol. Additionally, doses of cocaine or alcohol were given in combination with cumulative doses of cocaethylene. When administered alone, cocaethylene, cocaine and alcohol produced dose-related decreases in responding. Further, cocaethylene shifted the dose-response functions for both cocaine and alcohol to the left and down, while cocaine and alcohol shifted the dose-response function for cocaethylene to the left and down. An isobolographic analysis revealed that these interactions were additive in nature. The present study suggests behavioral interactions between cocaethylene and cocaine and between cocaethylene and alcohol. The contribution of cocaethylene to the enhanced effects produced by the co-administration of cocaine and alcohol was discussed.
ISSN:0033-3158
1432-2072
DOI:10.1007/s002130051044