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The Journal of Neuroscience, September 15, 2002, 22(18):8212-8221

Limbic Thalamic Lesions, Appetitively Motivated Discrimination Learning, and Training-Induced Neuronal Activity in Rabbits

David M. Smith^{1, 2}, John H. Freeman Jr⁴, Daniel Nicholson⁴, and Michael Gabriel^{1, 2, 3}

¹ Neuroscience Program, ² Beckman Institute Neuronal Pattern Analysis Group, and ³ Department of Psychology, University of Illinois, Urbana, Illinois 61801, and ⁴ Department of Psychology, University of Iowa, Iowa City, Iowa 52242

A substantial literature implicates the anterior and mediodorsal (limbic) thalamic nuclei and the reciprocally interconnected areas of cingulate cortex in learning, memory, and attentional processes. Previous studies have shown that limbic thalamic lesions severely impair discriminative avoidance learning and that they block development of training-induced neuronal activity in the cingulate cortex. The present study investigated the possibility that the limbic thalamus and cingulate cortex are involved in reward-based discriminative approach learning, wherein head-extension responses yielding oral contact with a drinking spout that was inserted into the conditioning chamber after a positive conditional stimulus (CS+) were reinforced with a water reward but responses to the spout after a negative conditional stimulus (CS) were not reinforced. In this task, the rabbits learned primarily to omit their prepotent responses to the spout on CS trials. Acquisition was severely impaired in rabbits given limbic thalamic lesions before training. As during avoidance learning, posterior cingulate cortical neurons of control rabbits developed learning-related neuronal responses to task-relevant stimuli, but this activity was severely attenuated in rabbits with lesions. These results support a general involvement of the cingulothalamic circuitry in instrumental approach and avoidance learning. The fact that learning consisted of response omission indicated that the cingulothalamic role is not limited to acquisition or production of active behavioral responses, such as locomotion. It is proposed that cingulothalamic neurons mediate associative attention, wherein enhanced neuronal responses to stimuli associated with reinforcement facilitate the selection and production of task-relevant responses.

Key words: cingulate cortex; discrimination; approach; limbic thalamus; learning; attention; neuronal activity

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Copyright © 2002 Society for Neuroscience  0270-6474/02/22188212-10$05.00/0

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