Caudate unit activity during operant feeding behavior in monkeys and modulation by cooling prefrontal cortex.

Activity was recorded from 351 neurons in the head of the caudate nucleus (CD) of monkeys during an operant feeding task consisting of: (1) food or non-food presentation (P); (2) bar pressing (B); and (3) food acquisition and ingestion (I). Of 45 neurons which responded in the P phase and were tested systematically, 27 responded to visual presentation of both food and non-food (non-specific response), and 18 responded to food presentation only (food specific response). The magnitude of food specific responses depended on the nature of the food and was inversely related to the latency of the onset of bar pressing. Thirty-five neurons responded in the B phase: 28 changed firing rate continuously with no correlation to individual bar presses, while the activity of the other 7 was related to each bar press. In the I phase, 62 neurons responded to separate events: the activity of more than half (39 neurons) was often related to chewing movement or gustatory stimuli, and that of one third (23 neurons) changed during individual arm movements. The neurons which responded in the P phase were found to be distributed widely in the head of the CD except for its central zone, while the neurons which responded in the I phase were in the medial part. Cooling of the dorsolateral prefrontal cortex abolished the continuous responses seen in the B phase, but did not abolish the feeding behavior. The data suggest that in the head of the CD there are several groups of neurons that have different functions and different distributions: food specific, sensory integration responses, non-motor responses driven by the frontal cortex, motor responses coupled to various movements, and sensory responses which apparently originate in the intra-oral cavity. These functions may arise sequentially, or in correspondence with integration of the sensory and motor systems to produce coordinated behavior.