Effects of Clozapine, Haloperidol, and Fluoxetine on the Reversal of Cocaine-Induced Locomotor Sensitization

OBJECTIVE: Repeated treatment with psychostimulants induces sensitization of the dopaminergic system in the brain. Dopaminergic sensitization has been proposed as a mechanism of psychosis. Although antipsychotics block the expression of sensitized behavior, they are ineffective for reversing the sensitized state. We investigated the effect of clozapine, haloperidol, and fluoxetine on the reversal of cocaine-induced behavioral sensitization. METHODS: Male ICR mice were sensitized to cocaine with repeated treatment. Animals were then split into four groups, and each group was treated with vehicle or one of the above drugs for 5 days. After a 3-day drug washout, locomotor activity was assessed before and after a cocaine challenge. RESULTS: Clozapine reversed the sensitized state, whereas haloperidol did not. Fluoxetine seemed to reverse the sensitization partially. CONCLUSION: We confirmed that D2 blockade was not effective for reversing sensitization. The reversal by clozapine is partially explained in terms of its strong 5-HT2 and weak D2 affinity. The partial reversal by fluoxetine seemed to be related to its serotonin-augmenting action.

Effects of Combined Treatments of Lithium and Valproate on the Phosphorylation of ERK1/2 and Transcriptional Activity of ELK1 and C-FOS in PC12 Cells

OBJECTIVES: Mechanisms of clinical synergistic effects, induced by co-treatments of lithium and valproate, are unclear. Extracellular signal-regulated kinase (ERK) has been suggested to play important roles in mechanisms of the action of mood stabilizers. In this study, effects of co-treatments of lithium and valproate on the ERK1/2 signal pathway and its down-stream transcription factors, ELK1 and C-FOS, were investigated in vitro. METHODS: PC12 cells, human pheochromocytoma cells, were treated with lithium chloride (30 mM), valproate (1 mM) or lithium chloride + valproate. The phosphorylation of ERK1/2 was analyzed with immunoblot analysis. Transcriptional activities of ELK1 and C-FOS were analyzed with reporter gene assay. RESULTS: Single treatment of lithium and valproate increased the phosphorylation of ERK and transcriptional activities of ELK1 and C-FOS, respectively. Combined treatments of lithium and valproate induced more robust increase in the phosphorylation of ERK1/2 and transcriptional activities of ELK1 and C-FOS, compared to those in response to single treatment of lithium or valproate. CONCLUSIONS: Co-treatments of lithium and valproate induced synergistic increase in the phosphorylation of ERK1/2 and transcriptional activities of its down-stream transcription factors, ELK1 and C-FOS, compared to effects of single treatment. The findings might suggest potentiating effects of lithium and valproate augmentation treatment strategy.