Motivational-sensorimotor interaction controls aphagia and exaggerated treading after striatopallidal lesions.

This study examined the relationship between sensorimotor and motivational functions of the corpus striatum. In rats, excitotoxic lesions of the corpus striatum (neostriatum and globus pallidus) caused by kainic or quisqualic acid can produce both aversive aphagia and a "choreic" sensorimotor syndrome: an exaggerated treading of the forepaws that is triggered by oral sensory stimulation. Experiment 1 used a recovery-of-function approach to show that (a) aphagia induced by ventroposterior striatopallidal lesions was accompanied by an enhancement of aversion (a specific motivational process) to sweet stimuli, which was expressed in taste reactivity measures of affective evaluation; (b) aphagia and enhanced aversion recovered together; and (c) exaggerated treading did not disappear with aphagia-aversion but narrowed the range of its eliciting trigger to sour and bitter stimuli. Experiment 2 used a partial lesion approach to show that this dissociation of enhanced aversion and exaggerated treading could be reproduced by smaller lesions immediately after striatopallidal damage. Experiment 3 used a conditioned aversion procedure to show that the stimulus for exaggerated treading was aversion (natural or conditioned) and not a simple sensory feature of oral stimulation. Three conclusions were made: (a) Exaggerated treading after a small lesion or after partial recovery from a larger one results from a restructuring of a sensorimotor relations that is nested within a system of aversive reaction, (b) exaggerated treading is elicited only by tastes that elicit natural or conditioned aversion, and (c) more extensive lesions potentiate aversion to tastes that are normally palatable and expand the range of treading elicitors to include those tastes. In other words, affective and sensorimotor systems interact in a hierarchial manner in the production of choreic treading. These results demonstrate a specific hierarchical link between motivational and sensorimotor functions mediated by striatopallidal circuits.