We studied the effect of carbon monoxide (CO)-induced hypoxia on synaptosomal uptake and release of dopamine (DA) in rat striatum. When the rats were intoxicated at a blood level of carboxyhemoglobin (HbCO), 60-70% for 3-4hrs, [³H] DA uptake was inhibited as much as 80% of control activity. This suppressed activity remained as long as 12 hrs after termination of the intoxication. After a week recovery period, the suppressed uptake activity was restored completely. When the rats were intoxicated maintaining a blood level of HbCO at 30-40% for 6-7hrs, the uptake was inhibited to 57% of the control actvity and this suppressed activity was restored within 12hrs. For the rats maintaining a blood level of HbCO at 15-25% for 6-7hrs, uptake inhibition was not shown. Acute CO intoxication(at 60-70% of HbCO for 3-4 hrs) caused an increase in K⁺-stimulated DA release to 147% of the control value. In conclusion, the diminished uptake and increased release of striatal DA in a CO intoxicated brain would cause an extraneuronal accumulation of DA with depletion of intraneuronal DA level, which may play a role in CO-induced hypoxic cell damage.