Circuits in the brain are built from connections between neurons, where the spatial organization and functional properties of these connections determines circuit function. In the cerebellum, Purkinje cells transmit information to neurons in the cerebellar nuclei, but how Purkinje cell - nuclear neuron connections are organized remains unclear. Here, we explored the connections between Purkinje cells and cerebellar nuclear neurons using whole-cell electrophysiology and optogenetics to produce spatial connectivity maps of cerebellar cortical output. We observed non-random connectivity between Purkinje cells and their target neurons, with inputs to cerebellar nuclear neurons clustering along cerebellar transverse zones. While many nuclear neurons received inputs from a single zone, a number of different connectivity motifs were observed. Neurons receiving inputs from all four zones were more common than predicted by a random model and showed topographic organization in the nucleus. Finally, we observed that small Purkinje cell inputs were sufficient to pause the output of nuclear neurons, suggesting that widespread Purkinje cell synchrony may not be necessary to influence cerebellar output. These findings reveal cerebellar nuclear neurons as an important locus of multimodal cerebellar integration.
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