TY - JOUR
T1 - Experience-Dependent Adult Cortical Plasticity Requires Cognitive Association between Sensation and Reward
AU - Blake, David T.
AU - Heiser, Marc A.
AU - Caywood, Matthew
AU - Merzenich, Michael M.
N1 - Funding Information:
D. Polley, R. Ramachandran, R. Beitel, J. Medina, L. Mundo, and E. Wong have provided useful commentary on this manuscipt and work. T. Phelps created artwork for Figure 2 . The authors would like to thank K. Macleod, S. Patterson, K. McGary, L. Bocskai, M. Fong, and D. Frances for technical support. This work supported by NIH grants 5R01NS010413, 5R03DC005708, and the Coleman and Sooy funds.
PY - 2006/10/19
Y1 - 2006/10/19
N2 - We tested the involvement of cognition in adult experience-dependent neuroplasticity using primate cortical implants. In a prior study, learning an operant sensory discrimination increased cortical excitability and target selectivity. Here, the prior task was separated into three behavioral phases. First, naive animals were exposed to stimulus-reward pairings from the prior study. These yoked animals did not have to discriminate to be rewarded and did not learn the discrimination. The plasticity observed in the prior study did not occur. Second, the animals were classically conditioned to discriminate the same stimuli in a simplified format. Learning was accompanied by increased sensory response strength and an increased range of sensory inputs eliciting responses. The third study recreated the original operant discrimination, and selectivity for task targets increased. These studies demonstrate that cognitive association between sensory stimuli and reinforcers accompanies adult experience-dependent cortical plasticity and suggest that selectivity in representation and action are linked.
AB - We tested the involvement of cognition in adult experience-dependent neuroplasticity using primate cortical implants. In a prior study, learning an operant sensory discrimination increased cortical excitability and target selectivity. Here, the prior task was separated into three behavioral phases. First, naive animals were exposed to stimulus-reward pairings from the prior study. These yoked animals did not have to discriminate to be rewarded and did not learn the discrimination. The plasticity observed in the prior study did not occur. Second, the animals were classically conditioned to discriminate the same stimuli in a simplified format. Learning was accompanied by increased sensory response strength and an increased range of sensory inputs eliciting responses. The third study recreated the original operant discrimination, and selectivity for task targets increased. These studies demonstrate that cognitive association between sensory stimuli and reinforcers accompanies adult experience-dependent cortical plasticity and suggest that selectivity in representation and action are linked.
KW - SYSNEURO
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U2 - 10.1016/j.neuron.2006.08.009
DO - 10.1016/j.neuron.2006.08.009
M3 - Article
C2 - 17046698
AN - SCOPUS:33749625928
SN - 0896-6273
VL - 52
SP - 371
EP - 381
JO - Neuron
JF - Neuron
IS - 2
ER -