Multivesicular release at a small central excitatory synaptic contact

We set out to study the properties of excitatory synaptic transmission at a central connection likely to consist of a single small synaptic contact. In the cerebellar cortex, molecular layer interneurones extend sparse thin dendrites in a parasagittal plane. The nonbranching parallel fibres traverse at right angles to the dendritic plane, forming en passant excitatory synapses. This arrangement makes it very likely that any synaptic connection between a parallel fibre and an interneurone will involve only a single contact. We obtained 20 paired recordings of synaptically connected granule cells and interneurones in cerebellar slices of immature rat, recorded at room temperature. Three of these pairs were successfully labelled using biocytin and a single point of contact between them was indentified. In 19/20 recordings, multiple release events corresponding to asynchronously released vesicles were frequently resolved following a single action potential. The frequency of these events could not be accounted for by spontaneous EPSCs, whose frequency was very low. We conclude that at this excitatory synaptic contact an action potential can release more than one vesicle.