Properties of Unitary Granule Cellright-arrowPurkinje Cell Synapses in Adult Rat Cerebellar Slices

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The Journal of Neuroscience, November 15, 2002, 22(22):9668-9678

Properties of Unitary Granule Cell $right-arrow$ Purkinje Cell Synapses in Adult Rat Cerebellar Slices
Philippe Isope and Boris Barbour
Neurobiology Laboratory, Ecole Normale Supérieure, 75230 Paris Cedex 05, France
The cerebellar cortex contains huge numbers of synapses between granule cells and Purkinje cells. These synapses are thoughtto be a major storage site for information required to executecoordinated movements. To obtain a quantitative description ofthis connection, we recorded unitary synaptic responses betweengranule cell and Purkinje cell pairs in adult rat cerebellar slices.Our results are consistent with parallel fiber $right-arrow$ Purkinje cell synapseshaving high release probabilities and modest paired pulse facilitation.However, a wide range of response amplitudes was observed. Indeed,we detected many fewer parallel fiber connections (7% of the granulecells that were screened) than expected (54%), leading us to suggestthat up to 85% of parallel fiber $right-arrow$ Purkinje cell synapses do notgenerate detectable electrical responses. We also investigatedthe possible role of granule cell ascending axons by recordinggranule cells near the Purkinje cell. A high proportion (up to50%) of local granule cells generated detectable synaptic responses.However, most of these connections were indistinguishable fromparallel fiber connections, suggesting that powerful ascendingaxon connections are rare. The existence of many very weak synapseswould provide a mechanism for Purkinje cells to extract informationselectively from the mass provided by parallelfibers.

Key words: cerebellum; Purkinje cell; granule cell; synapse; glutamate; motor control
Copyright © 2002 Society for Neuroscience 0270-6474/02/22229668-11$05.00/0

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Properties of Unitary Granule CellPurkinje Cell Synapses in Adult Rat Cerebellar Slices

Properties of Unitary Granule Cell $right-arrow$ Purkinje Cell Synapses in Adult Rat Cerebellar Slices