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Previous Article | Next Article
The Journal of Neuroscience, August 1, 2001, 21(15):5715-5722
Acquisition of Eyeblink Conditioning Is Critically Dependent on Normal Function in Cerebellar Cortical Lobule HVI
Philip J. E. Attwell, Shbana Rahman, and Christopher H. Yeo Department of Anatomy and Developmental Biology, University College London, London WC1E 6BT, United Kingdom
Classical conditioning of the nictitating membrane response (NMR)/eyeblink response of rabbits is a simple form of cerebellar-dependent, associative motor learning. Reversible inactivations of the cerebellar nuclei and inferior olive have implicated the olivo-cortico-nuclear loop in the acquisition of nictitating membrane conditioning, but the role of the cerebellar cortex in acquisition has not been tested directly. Here we have used local infusions of the water-soluble, disodium salt of 6-cyano-7-nitroquinoxaline-2,3-dione reversibly to block cerebellar cortical AMPA/kainate receptors in lobule HVI during acquisition training. After the drug effects dissipated, there was no evidence that acquisition had taken place; the subjects behaved as if naive. Further training without inactivation then allowed normal acquisition, and further inactivations during performance of conditioned responses abolished these established responses. There was a strong correlation between the inactivation effects on acquisition and subsequent inactivation effects on performance, indicating that the same eyeblink-control cortical microzones are engaged in learning and expressing this behavior. The cortical component of the olivo-cortico-nuclear loop is essential for acquisition of classically conditioned nictitating membrane response learning, and eyeblink control areas in HVI are critical. Our findings are consistent with models of cerebellar learning that assign essential plasticity to the cortex or to a distribution between levels in olivo-cortico-nuclear modules.
Key words: classical conditioning; acquisition; nictitating membrane; cerebellar cortex; AMPA receptors; reversible inactivation
Copyright © 2001 Society for Neuroscience 0270-6474/01/21155715-08$05.00/0
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