Differential contribution of motor cortex and caudate nucleus to instrumental tongue-forelimb synchronization in rats: a functional ablation study.

The functional ablation technique was used to assess the role of motor cortex and caudate nucleus in a complex skilled movement. Rats were trained to synchronize tongue and forepaw movements in a drinking box equipped with a retractable spout which was automatically withdrawn after every lick but could be returned by pressing and releasing a lever placed 4 cm below the spout. The animals learned to perform short presses synchronized with the lick cycle in such a way as to allow continuous drinking. Neural circuits implementing these lick-associated instrumental movements were blocked by intracranial injection of 10 ng of tetrodotoxin. Bilateral blockade of the motor cortex interfered with lick-synchronized bar pressing, but did not significantly influence licking from a stationary spout. Both licking and bar-pressing were impaired by bilateral injection of tetrodotoxin into the lateral part of the caudate nucleus for the duration of the tetrodotoxin-induced inactivation of the target region. The instrumental tongue-forelimb synchronization recovered considerably later, i.e. after two to three days. Functional blockade of the medial part of the caudate nucleus caused only a partial impairment of lick-synchronized bar pressing lasting less than 7 h and did not significantly influence consummatory licking. It is concluded that the tongue-forepaw synchronization is disrupted by blockade of motor cortex or lateral caudate considerably longer than the performance of the isolated component movements.