The role of the neuropeptide corticotropin-releasing factor (CRF) in mediating the behavioral effects of ethanol withdrawal in the rat was examined using the elevated plus-maze test. In Experiment 1, CRF (0.5 microgram ICV) reduced the percentage of time spent on the open arms of the elevated plus-maze, consistent with an "anxiogenic-like" effect. CRF also reduced the total number of arm entries, indicating a reduction in general activity. Low doses (5 and 25 micrograms ICV) of the CRF antagonist, alpha-helical CRF produced no behavioral effects in the elevated plus-maze, while a higher dose (50 micrograms ICV) elicited CRF-like activity. In experiment 2, rats were maintained for 2-3 weeks on a liquid diet containing ethanol (8.5-11.5% v/v) or sucrose. Eight hours after withdrawal from the ethanol diet rats displayed "anxiogenic-like" responses as well as a reduction in general activity in the elevated plus-maze compared with rats withdrawn from control diet. Alpha-helical CRF significantly antagonized the "anxiogenic-like" effects of ethanol withdrawal in the plus-maze. General activity and physical signs of ethanol withdrawal such as tail stiffness, body tremor and ventromedial distal flexion were unaffected by alpha-helical CRF. Blood Alcohol Levels (BALs) determined immediately after removal of the ethanol diet showed no group differences in ethanol consumption. These results suggest that increased activity of central CRF systems may mediate the anxiogenic effects of ethanol withdrawal.
After 7 day's gradual introduction of ethanol, rats were maintained for a further 4 weeks on a liquid diet containing 10% ethanol (mean daily dose 11.8 +/- 0.2 g/kg/day). Control-treated rats received liquid diet alone. Pairs of rats were tested in the social interaction test of anxiety 8 h after withdrawal. Withdrawal from ethanol significantly reduced the time spent in social interaction compared with controls, indicating an anxiogenic withdrawal response. Nitrendipine (50 mg/kg) had no effect on, whereas flumazenil (4 mg/kg) significantly reversed, this withdrawal response. This reversal appeared to be long-lasting as there was still no evidence of increased anxiety when rats were again withdrawn after 3 more days of ethanol diet.
In summary, endogenous CRF has been demonstrated to play an important role in the endocrine but also autonomic and behavioral responses to a stressor and to mediate some of the signs and symptoms observed in human affective and anxiety disorders. These findings led to the hypothesis that the anxiety that characterizes drug withdrawal, such as ethanol withdrawal in humans, may be related in part to the action of CRF-producing neurons in the CNS. Indeed, rats made dependent on an ethanol liquid diet showed significant signs of enhanced stress responsiveness that was blocked by intracerebral administration of a CRF antagonist. At this time little is known about the specific site of action for endogenous CRF. However, recent studies using local administration of CRF antagonist and in vivo CRF microdialysis suggest that the central nucleus of the amygdala may be an important site for the increases in CRF activity associated with the anxiogenic effects of ethanol withdrawal. Although preliminary, these results propound that ethanol dependence may involve a prolonged dysregulation of the CRF system in the basal forebrain that may contribute to the increased motivational effect of ethanol withdrawal.
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