Journal
NATURE
Volume 412, Issue 6846, Pages 546-549Publisher
MACMILLAN PUBLISHERS LTD
DOI: 10.1038/35087595
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Reward is important for shaping goal-directed behaviour(1-4). After stimulus-reward associative learning, an organism can assess the motivational value of the incoming stimuli on the basis of past experience (retrospective processing), and predict forthcoming rewarding events (prospective processing)(1-5). The traditional role of the sensory thalamus is to relay current sensory information to cortex. Here we rnd that non-primary thalamic neurons respond to reward-related events in two ways. The early, phasic responses occurred shortly after the onset of the stimuli and depended on the sensory modality. Their magnitudes resisted extinction and correlated with the learning experience. The late responses gradually increased during the cue and delay periods, and peaked just before delivery of the reward. These responses were independent of sensory modality and were modulated by the value and timing of the reward. These observations provide new evidence that single thalamic neurons can code for the acquired significance of sensory stimuli in the early responses (retrospective coding) and predict upcoming reward value in the late responses (prospective coding).
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