Visual impairment in the absence of dystroglycan

Abstract

Ocular involvement in muscular dystrophy ranges from structural defects to abnormal electroretinograms. While the mechanisms underlying the abnormal retinal physiology in patients are not understood, it is thought that α-dystroglycan extracellular interactions are critical for normal visual function. Here we show that β-dystroglycan anchors dystrophin and the inward rectifying K+ channel Kir4.1 at glial endfeet and that disruption of dystrophin and potassium channel clustering in dystroglycan mutant mice is associated with an attenuation of the electroretinogram b-wave. Glial-specific inactivation of dystroglycan or deletion of the cytoplasmic domain of β-dystroglycan was sufficient to attenuate the electroretinogram b-wave. Unexpectedly, deletion of the β-dystroglycan cytoplasmic domain did not disrupt the laminar structure of the retina. In contrast to the role of α-dystroglycan extracellular interactions during early development of the CNS, β-dystroglycan intracellular interactions are important for visual function but not the laminar development of the retina. Copyright © 2009 Society for Neuroscience.