Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4323221 | Neuron | 2007 | 11 Pages |
SummaryShort-term synaptic plasticity influences how presynaptic spike patterns control the firing of postsynaptic targets. Here we investigated whether specific mechanisms of short-term plasticity are regulated in a target-dependent manner by comparing synapses made by cerebellar granule cell parallel fibers onto Golgi cells (PF→GC synapse) and Purkinje cells (PF→PC synapse). Both synapses exhibited similar facilitation, suggesting that any differential short-term plasticity does not reflect differences in the initial release probability. PF→PC synapses were highly sensitive to stimulus bursts, which could result in either depression of subsequent responses, mediated by endocannabinoid-dependent retrograde signaling, or enhancement of responses through posttetanic potentiation (PTP). In contrast, stimulus bursts had remarkably little effect on the strength of PF→GC synapses. Unlike PCs, GCs were unable to regulate their PF synapses by releasing endocannabinoids. Moreover, PTP was reduced at the PF→GC synapse compared to the PF→PC synapse. Thus, the target-dependence of PF synapses arises from the differential expression of both retrograde signaling and PTP.