Dystonin transcripts are altered and their levels are reduced in the mouse neurological mutant dt24J.

Dystonia musculorum is a hereditary mouse neurodegenerative disorder that primarily affects the sensory arm of the nervous system. We have recently cloned and identified a candidate gene for this disorder and designated it dystonin. The sequence of dystonin predicts a rod-shaped cytoskeletal-associated protein with an actin-binding domain at the N-terminal end and a hemidesmosomal protein sequence (bpag1) at the C-terminal end. Here we show that abnormal dystonin transcripts are present in neural tissues of a spontaneous dystonia musculorum mutant, dt24J. We further show that dystonin transcript levels are reduced 2- to 3-fold in dt24J mice.