KETAMINE-INDUCED HYPERLOCOMOTION ASSOCIATED WITH ALTERATION OF PRESYNAPTIC COMPONENTS OF DOPAMINE NEURONS IN THE NUCLEUS-ACCUMBENS OF MICE

The underlying mechanisms of ketamine-induced hyperlocomotion were examined in mice. An intraperitoneal (IP) injection of ketamine (3-150 mg/kg) increased locomotor activity in a dose-dependent fashion. A low dose of ketamine (30 mg/kg) produced peak locomotion within the first 10 min followed by a rapid decline. In contrast, a high dose (150 mg/kg) inhibited locomotor activity to the control level during the first 30 min. Thereafter the activity gradually increased and reached a peak at approximately 2 h followed by a gradual decline. The hyperactivities induced by both low and high doses of ketamine were inhibited by a low dose of haloperidol (0.10 mg/kg, IP), a dopamine (DA) receptor antagonist. However, neither a high dose of phenoxybenzamine (10 mg/kg, IP), an alpha-blocker nor a high dose of propranolol (20 mg/kg, IP), a beta-blocker inhibited the hyperactivities. Destruction of catecholaminergic terminals by 6-hydroxydopamine suppressed ketamine-induced hyperlocomotion. Regional brain monoamine assays revealed that, a peak locomotion, a low dose of ketamine (30 mg/kg) selectively increased DA turnover in the nucleus accumbens which is a forebrain region believed to be involved in the initiation and regulation of locomotor activity, while a high dose (150 mg/kg) increased not only DA but also norepinephrine and serotonin turnover in many regions of the brain. In vitro, ketamine slightly provoked [H-3]DA release from nucleus accumbens and striatal slices to a similar extent, but inhibited synaptosomal uptake of [H-3]DA in the nucleus accumbens to a greater degree than in the striatum. These results suggest that ketamine may have indirect DA agonist action and that ketamine-induced hyperlocomotion may be mediated by presynaptic DA neurons in the nucleus accumbens rather than in the striatum.