Alpha-dystroglycan interactions affect cerebellar granule neuron migration.

The interaction of alpha-dystroglycan (a-DG) with its extracellular binding partners requires glycans attached to its mucin core domain, and defects in the glycosylation of a-DG are associated with both muscular dystrophy and neuronal migration defects. The involvement of a-DG and one of its ligands, agrin, in cerebellar neuronal migration was investigated. Antibodies directed against glycosylated a-DG inhibited granule neuron migration in cerebellar slice cultures. a-DG interactions did not appear to influence neurite outgrowth in cerebellar explant cultures, but enhanced granule neuron binding was observed on cells transfected with a-DG. These results suggest that interactions involving a-DG influence the strength of attachment of granule neurons to the a-DG-expressing Bergmann glial cells that guide granule neuron migration in the cerebellum. Experiments using anti-agrin antibodies suggest that agrin is not involved in these interactions.