Haloperidol Decreases Hyperkinetic Paw Treading Induced by Globus Pallidus Lesions in the Rat

Abstract

Systemic haloperidol injections decrease the severity of several hyperkinetic syndromes caused by damage to the basal ganglia in humans. A model of hyperkinesia in the rat, exaggerated paw treading triggered by oral sensory stimulation, has been reported previously to result from lesions of the globus pallidus or ventral pallidum/substantia innominata. This hyperkinesia appears as forepaw and forelimb extension and retraction, which can be emitted vigorously and repeatedly for up to minutes at a time. The present study aimed to discover whether this experimental hyperkinesia is pharmacologically similar to human hyperkinetic syndromes: can it be suppressed by neuroleptic administration? Systemic injections of haloperidol (2 mg/kg), diazepam (5 mg/kg, as a sedative comparison), or vehicle were given to rats that expressed the paw treading syndrome after pallidal lesions. Effects on hyperkinetic treading and on tests of sensorimotor function were compared. Results indicated that haloperidol was effective in ameliorating the hyperkinesia in rats with bilateral globus pallidus lesions but not in rats with ventral pallidum/substantia innominata lesions. By contrast, diazepam, which produced sedation and sensorimotor impairment, did not decrease the hyperkinesia induced by either lesion. Although only haloperidol decreased hyperkinetic treading after globus pallidus lesions, haloperidol produced less of a sensorimotor impairment than diazepam on climbing, hanging, and righting reflex tests. These results implicate a specific role for dopamine neurotransmission in the expression of triggered hyperkinetic treading induced by globus pallidus lesions.