Recovery on a Drug Discrimination Learning Task After Brain Transplants: Preliminary Findings

Brain grafts may improve functional recovery after brain damage. The recovery has been evaluated by morphological and behavioral observations, but such evaluations of recovery have some problems since the demonstration of cellular growth in the graft is different from cellular functionality. For example, the graft may facilitate behavioral expression of related brain areas. The drug discrimination learning paradigm may be a useful technique to evaluate functional recovery because, in order to perceive and discriminate the drug conditions, the following are required: a) specific pharmacological mechanisms (membrane receptors) at the cellular level; b) specific brain areas on which the receptors, brain pathways and physiological mechanisms are located for the organization of the response, and c) specific behavioral responses which may provide an index of the functionality of receptors as well as of brain areas. Subjects were male Wistar rats with a body weight of 350-400 g. The animals had free access to food but were deprived of water during 22 h/day. Water was provided in a 30 min session five days a week and 1.5 h of free access. The rats were trained on two operant conditioning chambers, each equipped with two levers on a MULT FR10-FR10 to discriminate between scopolamine (1.8 mg/kg s.c. 20 min before session) and vehicle (saline) on randomly alternated days. Injection volumes were 1.0 ml/kg. Drug condition was the discriminative stimulus for correct lever selection and training was extended until no more than 2 incorrect lever presses were emitted before the first reinforcer (0.3 ml) of the session. After training rats were lesioned bilaterally in the hippocampus (AP-2.3 Bregma, L 0.9, V-4.3 Surface,/1/). One month after lesion, the drug discrimination was reevaluated under the saline and scopolamine conditions. The subjects received a 17-day fetal homologous transplant in the same site as the lesion. Fourteen days after transplantation, rats were deprived of water for evaluation on the drug discrimination task (under the same conditions as training). Experimental events (reinforcer, light) were controlled with computer equipment. Responses and time of occurrence were registered for each lever. A drug discrimination index (DDI) was calculated (saline lever presses/drug + saline lever presses) before the first reinforcer of each session. After approximately 40 sessions on each drug condition, rats learned to discriminate drug conditions. Response rate and time to first reinforcer were about the same on saline and scopolamine days, showing that the drug did not interfere with performance or motivational …