Abstract
AbstractCerebellar outputs take polysynaptic routes to reach the rest of the brain, impeding conventional tracing. Here we quantify pathways between cerebellum and forebrain using transsynaptic tracing viruses and a whole-brain quantitative analysis pipeline. Retrograde tracing found a majority of descending paths originating from somatomotor cortex. Anterograde tracing of ascending paths encompassed most thalamic nuclei, especially ventral posteromedial, lateral posterior, mediodorsal, and reticular nuclei; in neocortex, sensorimotor regions contained the most labeled neurons, but higher densities were found in associative areas, including orbital, anterior cingulate, prelimbic, and infralimbic cortex. Patterns of ascending expression correlated with c-Fos expression after optogenetic inhibition of Purkinje cells. Our results reveal homologous networks linking single areas of cerebellar cortex to diverse forebrain targets. We conclude that shared areas of cerebellum are positioned to provide sensory-motor information to regions implicated in both movement and nonmotor function.Graphical Abstract
Publisher
Cold Spring Harbor Laboratory
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