Corticotropin-Releasing Factor 1 Antagonists Selectively Reduce Ethanol Self-Administration in Ethanol-Dependent Rats

BackgroundAlcohol dependence is characterized by excessive alcohol consumption, loss of control over intake, and the presence of a withdrawal syndrome, which includes both motivational and physical symptoms. Similar to human alcoholics, ethanol-dependent animals display enhanced anxiety-like behaviors and enhanced ethanol self-administration during withdrawal, effects hypothesized to result from a dysregulation of corticotropin-releasing factor (CRF) stress systems. Here, we used an animal model of ethanol dependence to test the effects of CRF1 receptor antagonists on excessive ethanol self-administration in dependent rats.MethodsWistar rats, trained to orally self-administer ethanol, were exposed intermittently to ethanol vapors to induce ethanol dependence. Nondependent animals were exposed to control air. Following a 2-hour period of withdrawal, dependent and nondependent animals were systemically administered antalarmin, MJL-1-109-2, or R121919 (CRF1 antagonists) and ethanol self-administration was measured.ResultsThe nonpeptide, small molecule CRF1 antagonists selectively reduced excessive self-administration of ethanol in dependent animals during acute withdrawal. The antagonists had no effect on ethanol self-administration in nondependent rats.ConclusionsThese data demonstrate that CRF1 receptors play an important role in mediating excessive ethanol self-administration in dependent rats, with no effect in nondependent rats. CRF1 antagonists may be exciting new pharmacotherapeutic targets for the treatment of alcoholism in humans.