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Role of Dopamine Receptors on Electroencephalographic Changes Produced by Repetitive Apomorphine Treatments in Rats  

Jang, Hwan-Soo (Departments of Pharmacology and Kyungpook National University)
Kim, Ji-Young (Departments of Pharmacology and Kyungpook National University)
Kim, Sang-Heon (Psychiatry, School of Medicine, Kyungpook National University)
Lee, Maan-Gee (Departments of Pharmacology and Kyungpook National University)
Publication Information
The Korean Journal of Physiology and Pharmacology / v.13, no.3, 2009 , pp. 147-151 More about this Journal
Abstract
Repeated psychostimulants induce electroencephalographic (EEG) changes, which reflect adaptation of the neural substrate related to dopaminergic pathways. To study the role of dopamine receptors in EEG changes, we examined the effect of apomorphine, the dopamine D1 receptor antagonist, SCH-23390, and the D2 receptor antagonist, haloperidol, on EEG in rats. For single and repeated apomorphine treatment groups, the rats received saline or apomorphine for 4 days followed by a 3-day withdrawal period and then apomorphine (2.5 mg/kg, i.p.) challenge after pretreatment with saline, SCH-23390, or haloperidol on the day of the experiment. EEGs from the frontal and parietal cortices were recorded. On the frontal cortex, apomorphine decreased the power of all the frequency bands in the single treatment group, and increased the theta (4.5 ${\sim}$ 8 Hz) and alpha (8 ${\sim}$ 13 Hz) powers in the repeated treatment group. Changes in both groups were reversed to the control values by SCH-23390. On the parietal cortex, single apomorphine treatment decreased the power of some frequency bands, which were reversed by haloperidol but not by SCH-23390. Repeated apomorphine treatment did not produce significant changes in the power profile. These results show that adaptation of dopamine pathways by repeated apomorphine treatment could be identified with EEG changes such as increases in theta and alpha power of the frontal cortex, and this adaptation may occur through changes in the D1 receptor and/or the D2 receptor.
Keywords
Apomorphine; Dopamine D1 receptor; Dopamine D2 receptor; SCH-23390; Haloperidol; EEG; Rat;
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Times Cited By Web Of Science : 2  (Related Records In Web of Science)
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