Adolescent rats have been observed to be less sensitive than adults to a number of acute ethanol effects, including ethanol-induced motor impairment. These adolescent insensitivities may be related in part to the more rapid emergence of within session (acute) tolerance in adolescents than adults. Adolescent-related alterations in neural systems that serve as ethanol target sites, including changes in NMDA receptor subunit expression, may influence the responsiveness of adolescents to acute ethanol effects.
This study explored the role of NMDA NR2B receptors in the development of acute tolerance to ethanol-induced motor impairment in male adolescent [postnatal day (P)28–30] and adult (P68–70) Sprague–Dawley rats.
This study explored the role of NMDA NR2B receptors in the development of acute tolerance to ethanol-induced motor impairment in male adolescent [postnatal day (P)28–30] and adult (P68–70) Sprague–Dawley rats.
Motor-impairing effects of ethanol on the stationary inclined plane and blood ethanol concentrations (BECs) were examined following challenge at each age with a functionally equivalent ethanol dose (adolescents: 2.25 g/kg; adults: 1.5 g/kg). Data were collected at two postinjection intervals (10 or 60 minutes) to compare rate of recovery from ethanol intoxication with BEC declines using the Radlow approach (Radlow, 1994) and changes in motor impairment/BEC ratios over time for assessing acute tolerance.
Both vehicle-treated adolescent and adult animals showed similar acute tolerance development to the motor-impairing effects of ethanol at these functionally equivalent doses on the stationary inclined plane, as indexed by an increasing time-dependent dissociation between BECs and ethanol-induced motor impairment, with motor impairment declining faster than BECs, as well as by significant declines in motor impairment/BEC ratios over time. Acute tolerance development was reliably blocked by administration of the NR2B antagonist, ifenprodil, (5.0 mg/kg), in adult rats, whereas adolescents were affected by a higher dose (10.0 mg/kg).
These data support the suggestion that alterations in NMDA receptor systems occurring during adolescence may contribute to reduced sensitivity to ethanol by enhancing the expression of acute tolerance development in adolescents relative to adults.
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Request Reprint E-Mail: rramire1@binghamton.edu
