The unipolar brush cells of the mammalian cerebellum and cochlear nucleus: cytology and microcircuitry.

The unipolar brush cell (UBC) is a novel type of small neuron that is characterized by sets of morphological and chemical phenotypes. UBCs occur in the granular layer of the mammalian cerebellar cortex, particularly in folia of the vestibulocerebellum, and in the granule cell domains of the dorsal cochlear nucleus. The UBC is characterized by a single dendrite that terminates with a brush-like tip of dendrioles. The soma, the dendritic stem, and especially the dendrioles emit short, non-synaptic appendages. The dendrioles represent the main synaptic apparatus of the UBC and articulate tightly with a single mossy fiber rosette forming a glomerular array characterized by an extraordinarily extensive synaptic contact. Electron microscopic and electrophysiological observations indicate that the unusual synaptic ultrastructure may produce entrapment of neurotransmitter in the synaptic cleft. While ionotropic glutamate receptors are enriched in correspondence of the postsynaptic density, metabotropic glutamate receptors are situated extrasynaptically and are particularly enriched at the appendages, which usually do not bear synaptic junctions. Some of the UBCs receive their input from choline acetyltransferase-positive mossy rosettes originating from the vestibular nuclei, suggesting that ACh and glutamate are co-released at these synapses. The UBC brush occupies a glomerulus where granule cell dendrites are intermixed with the UBC dendrioles, both of which receive synapses from the same mossy fiber rosette and portions of the Golgi axonal plexus. In addition, the dendrioles are presynaptic to granule cell dendrites, forming dendrodendritic contacts that display features of excitatory synapses. Branches of the UBC axon in the granular layer bear large endings resembling mossy fibers. The UBCs may represent an extraordinary device for feedforward, excitatory links along the mossy fiber pathways of cerebellum and dorsal cochlear nucleus.