Dystroglycan expression in the wild type and mdx mouse neural retina: Synaptic colocalization with dystrophin, dystrophin‐related protein but not laminin

Alpha‐ and β‐dystroglycan (α‐ and β‐DG) are members of a dystrophin‐associaced glycoprotein complex (DGC) in skeletal muscle which binds to agrin and laminin, and has been postulated to be involved in myoneural synapse formation. The absence of functional dystrophin in Duchenne muscular dystrophy (DMD) and in one of its animal models, the mdx mouse, leads to a reduction of α‐ and β‐DG in muscle, and is often associated with mental retardation and abnormal retinal synaptic transmission in DMD. Using immunohistochemistry, we find that a‐ and β‐DG are expressed in the outer plexiform layer of both wild type and mdx retina, where both dystrophin and dystrophin‐related protein (DRP), but not laminin are present. In situ hybridization identifies two neuronal populations, photoreceptors and retinal ganglion cells, that express DG mRNA. α‐ and β‐DG are also expressed in the inner limiting membrane and around blood vessels where they colocalize with laminin and DRP. Western blot analysis revealed the expression of several dystrophin isoforms in wild type and mdx retina, possibly explaining the unaltered expression of α‐ and β‐dystroglycan in the mdx central nervous system (CNS). Our results support the hypothesis that a‐ and β‐DG can interact with dystrophin and DRP in the CNS and perform functions analogous to those of the DGC in muscle. © 1995 Wiley‐Liss, Inc.