Projections from the cervical enlargement to the cerebellar nuclei in the rat, studied by anterograde axonal tracing.

Spinocerebellar projections from the cervical enlargement originate from neurons in the medial part of lamina VI and the central part of lamina VII. In the present study, the topographic projections of the cervical enlargement to the cerebellar nuclei were examined by anterograde tracing with biotinylated dextran in the rat. Following injections of the tracer into the spinal cord at levels between the C5 and T1 segments, anterogradely labeled axons and terminals were immunohistochemically demonstrated in the cerebellar nuclei. Unilateral injections revealed that projections are bilateral, but predominantly ipsilateral, to the cells of origin. Labeled axons entered the media nucleus from its rostrodorsal and rostromedial aspects. Labeled terminals were distributed to dorsal and medial parts of the middle subdivision at its rostral levels and to medial parts of the caudomedial subdivision of the medial nucleus. Most axons terminated in the middle subdivision. Single axons were seen to course rostrocaudally in the medial nucleus and give off terminal axons to both subdivisions. A few labeled terminals were seen in the dorsolateral protuberance of the medial nucleus, and in the anterior interpositus and the posterior interpositus nuclei. No labeled terminals were seen in the lateral cerebellar nucleus. The present study demonstrates that spinocerebellar neurons in laminae VI and VII of the cervical enlargement project to dorsomedial areas of the medial nucleus at rostral levels, bilaterally but predominantly ipsilaterally. It is suggested that these areas specifically receive cutaneous and muscular input related to the forelimb movement.