The relationship between spatial learning impairment and reversible neuronal injury in the posterior cingulate/retrosplenial (PC/RS) cortex induced by MK-801 in male mice was studied using a four-corner holeboard task. Mice were dosed with 1 mg/kg MK-801 and tested on acquisition of a new "baited" hole at 5 or 12 h posttreatment. Acquisition in drugged mice was impaired at 5 h, but not at 12 h posttreatment. Their retention performances were unaffected 24 h after either the 5 or 12 h posttreatment acquisition sessions. MK-801 (1 mg/kg) was found to induce locomotor hyperactivity and some sensorimotor impairment at 5 h posttreatment. which could have contributed to the acquisition deficit. However, nonassociative effects of the drug were not prominent because this same dose did not impair holeboard performance at 5 h posttreatment when the task was well learned. Histologic experiments showed that many injured neurons (containing cytoplasmic vacuoles) were present in the PC/RS cortex at 5 h posttreatment but the reaction was essentially reversed at 12 h posttreatment. The results suggest that the acquisition impairment and neuronal injury induced by MK-801 evolve and recover in parallel according to a similar time schedule.