Effect of haloperidol on reflex activation of rat alpha-motoneurones. A possible explanation for akinesia and catalepsy?

Abstract

Effects of haloperidol on rat flexor and extensor alpha-motoneurones were studied in ventral roots of laminectomized rats under halothane anesthesia. The alpha-motoneurones were activated by tetanic stimulation of low-threshold afferents (group I and II), either of the ipsilateral peroneal nerve ("flexor alpha-motoneurones") or gastrocnemius-soleus nerve ("extensor alpha-motoneurones"). Haloperidol, given in the doses of 0.075, 0.15 and 0.30 mg/kg i.p. inhibited the reflex activation of flexor alpha-motoneurones; higher doses seemed to be more effective than lower ones. Apomorphine (2 mg/kg s.c.) partially antagonized the inhibitory action of haloperidol with some latency. Higher doses of haloperidol (0.15-0.60 mg/kg i.p.) also inhibited the reflex activation of extensor alpha-motoneurones; this inhibitory effect was, at least for a short time, antagonized by apomorphine (2 mg/kg s.c.). The threshold for reflex activation both of flexor and extensor alpha-motoneurones was raised by haloperidol and lowered by a subsequent administration of apomorphine. Our results suggest that akinesia and catalepsy, induced in rats by haloperidol might be, at least in part, due to a decrease in sensitivity of alpha-motoneurones to proprioceptive stimuli.