S77. ROLE OF DOPAMINE AND GLUTAMATE TRANSPORTERS IN GENERATION OF ANTIPSYCHOTIC EFFICACY

Abstract

BackgroundAntipsychotic drugs are the first line intervention to treat psychosis in schizophrenia and D2 receptor blockade is thought to be their primary mechanism of action. However, multiple lines of evidence from human and animal studies show that D2 receptor blockade is not always correlated with markers of antipsychotic efficacy. We previously demonstrated that reduced antipsychotic efficacy occurs after chronic antipsychotic administration in rodents despite stable D2 blockade, examined using PET imaging. Instead, we found that changes in expression of the dopamine transporter (DAT) were associated with decreases in endogenous dopamine and dopamine-mediated autoinhibition. These studies have led us to examine the DAT as a critical player in generation of an antipsychotic response.MethodsUsing antisense morpholino oligonucleotides, administered for 3 consecutive days using Long Evans rats, we selectively blocked translation of DAT or GLT-1 mRNA in the core of the nucleus accumbens, a brain region critical for motor outputs in response to salient stimuli. Baseline locomotion was monitored prior to and after an acute i.p. injection of haloperidol. Next, locomotion was monitored in response to a tail pinch or acute i.p. administration of cocaine. Transporter expression was quantified during acute or chronic haloperidol treatment using confocal microscopy.ResultsWe found that DAT knockdown enhanced tail pinch-induced locomotion after acute haloperidol administration. Additionally, knockdown of the glutamate transporter GLT-1 strongly enhanced locomotion induced by tail pinch or cocaine injection after antipsychotic treatment. Confocal analysis of GLT-1 expression after acute or chronic haloperidol revealed significant GLT-1 up-regulation during a time period associated with antipsychotic efficacy.DiscussionOur findings demonstrate a cause/effect relationship between reduced DAT and the behavioral response to an acute injection of antipsychotics in rodents. In all, our data point to the importance of both dopamine and glutamate uptake in the efficacy of antipsychotic drugs and argue against a D2-centric hypothesis of antipsychotic action.