2012
DOI: 10.1523/jneurosci.3916-12.2012
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Effects of Climbing Fiber Driven Inhibition on Purkinje Neuron Spiking

Abstract: Climbing fiber (CF) input to the cerebellum is thought to instruct associative motor memory formation through its effects on multiple sites within the cerebellar circuit. We used adeno-associated viral delivery of channelrhodopsin-2 (ChR2) to inferior olivary neurons to selectively express ChR2 in CFs, achieving nearly complete transfection of CFs in the caudal cerebellar lobules of rats. As expected, optical stimulation of ChR2-expressing CFs generates complex spike responses in individual Purkinje neurons (P… Show more

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Cited by 84 publications
(88 citation statements)
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“…Evidence indicates that the pause in SSs is at least partly caused by activation of MLIs and GABA release [46], [50], [73], [74]. However, MLIs appear not to receive climbing fiber synapses [81], but instead are activated by climbing fiber activity via glutamate spillover from climbing fiber-PC synapses [75], [76], [82]. EAAT4 is found in the perisynaptic membrane of climbing fiber-PC synapses [25], [67], and controls glutamate spillover at those synapses [27], [83], raising the possibility that the differing EAAT4 expression levels may also underlie the observed differences in active suppression of SSs between Z+ and Z− bands.…”
Section: Discussionmentioning
confidence: 99%
“…Evidence indicates that the pause in SSs is at least partly caused by activation of MLIs and GABA release [46], [50], [73], [74]. However, MLIs appear not to receive climbing fiber synapses [81], but instead are activated by climbing fiber activity via glutamate spillover from climbing fiber-PC synapses [75], [76], [82]. EAAT4 is found in the perisynaptic membrane of climbing fiber-PC synapses [25], [67], and controls glutamate spillover at those synapses [27], [83], raising the possibility that the differing EAAT4 expression levels may also underlie the observed differences in active suppression of SSs between Z+ and Z− bands.…”
Section: Discussionmentioning
confidence: 99%
“…Enhanced simple spike activity, as observed in the zebrin-negative modules, will lead to reduced firing of these cerebellar nuclei neurons that inhibit the inferior olivary neurons leading to an increase in complex spike activity (De Zeeuw et al 1988). Because an increase in complex spike activity suppresses simple spike frequency through cerebellar cortical interneurons in the molecular layer (Mathews et al 2012;Coddington et al 2013), this network effect ultimately provides an excellent way to mediate homeostasis of activity within the olivocerebellar modules (Fig. 3B,C).…”
Section: Intrinsic Differences Among Cerebellar Modulesmentioning
confidence: 94%
“…A notable exception is glutamate spillover from the climbing fiber (CF) to MLIs in the cerebellar cortex. Here, high MVR allows glutamate to activate interneuron AMPARs and NMDARs, generating slow and long-lasting excitation [62] that increases firing for tens of milliseconds (see below and [63, 64]).…”
Section: How Mvr Shapes Synaptic Transmissionmentioning
confidence: 99%