Abstract
This study examined the interaction between restraint stress and ethanol drinking in mice that consume low and high amounts of ethanol. Two strains of mice (129SVEV and C57BL/6J) underwent 1 hour of restraint stress twice per day for 4 days in the presence of a CRF-1 receptor antagonist, a glucocorticoid receptor antagonist or vehicle. Ethanol preference and consumption were assessed using a two bottle choice design. In another study, mice were implanted with pellets containing corticosterone; ethanol preference and consumption were assessed using a two bottle choice design. Restraint stress significantly increased ethanol preference and consumption in 129SVEV mice but not in C57BL/6J mice. Then 129SVEV mice underwent the identical stress procedure; however, mice received either the CRF-1 receptor antagonist, R121919 (15 or 20 mg/kg, ip) or vehicle 30 minutes prior to stress. R121919 did not block the stress-induced change in ethanol preference despite causing a significant blunting in the HPA axis. Negative results were also obtained using the CRF-1 receptor antagonist, Antalarmin (20 mg/kg, ip). In another study, 129SVEV mice were administered either the glucocorticoid receptor antagonist Mifepristone (25, 50 or 100 mug/kg, ip) or vehicle under the same procedure. Mifepristone did not alter ethanol preference. Moreover, the three receptor antagonist did not alter nonstress ethanol consumption either. In the last study, both mouse strains underwent active or sham adrenalectomy, then pellets containing corticosterone or placebo were implanted and preference for ethanol versus water was tested. Corticosterone administration decreased ethanol consumption in a strain-dependent manner. These data show the restraint model for stress can modestly increase ethanol consumption in 129SVEV mice but not in C57BL/6J mice. Pharmacologic manipulation of CRF and corticosterone did not blunt baseline or stress-induced change in ethanol preference nor did administration of corticosterone mimic the effects of restraint stress on ethanol consumption. These findings suggest the mechanism responsible for increasing ethanol consumption in this model is independent of the HPA axis and extra-hypothalamic CRF.
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