The purpose of the study is to determine the relationship between behavioral symptoms of amphetamine withdrawal and the extracellular concentration of dopamine (DA) in the dorsolateral caudate nucleus and the nucleus accumbens across the entire light-dark cycle. This was accomplished using automated on-line microdialysis sampling in behaving rats. Animals were pretreated with escalating doses of d-amphetamine (or saline) over a 6-week period and then were withdrawn from amphetamine for 3, 7, or 28 days before testing. There were regional differences in the effects of amphetamine withdrawal on the concentrations of DA and DA metabolites in dialysate. Early during withdrawal (3 and 7 days), when animals showed postamphetamine withdrawal behavioral depression (nocturnal hypoactivity), there was a significant decrease in DA and DA metabolites in the dorsolateral caudate nucleus and a disruption in the normal circadian pattern of DA activity. In contrast, there was no effect of amphetamine withdrawal on DA dynamics in the nucleus accumbens. By 28 days after the discontinuation of amphetamine pretreatment, after basal DA in the caudate returned to normal, there was a significant increase in basal DA metabolism in both the caudate and the accumbens. This increase in DA metabolism may be related to the expression of sensitization, including a hypersensitivity to an amphetamine challenge. It is concluded that the role of the dorsal striatum in psychostimulant drug withdrawal syndromes deserves further consideration.