Muscle could be the therapeutic target in SMA treatment

A nerve‐muscle coculture model (human muscle cells innervated by embryonic rat spinal cord) was used to explore the pathogenesis of spinal muscular atrophy (SMA). Previous studies showed that myofibers from donors with SMA type I or SMA type II (but not SMA type III) undergo a characteristic degeneration 1–3 weeks after innervation (Braun et al. [1995] Lancet 345:694–695). To determine which cells are involved in degeneration, we cloned satellite cells and fibroblasts derived from muscle biopsies of normal (healthy) donors and donors with SMA. We show that fibroblasts are required for successful innervation, that fibroblasts from normal and SMA donors contribute equally well to the establishment of cocultures, and that only SMA satellite cells are responsible for the degeneration of innervated cocultures. We succeeded in preventing the degeneration of cloned satellite cells from SMA donors by adding 50% cloned satellite cells from normal donors to the culture to make heteromyotubes. In mixed cocultures, after innervation, we did not observe degeneration. This result suggests that survival of the cocultures depends on a message derived from the muscle cells. Consequently, we propose that therapeutic approaches for SMA that could repair (or compensate for) the genetic defect in muscle cells (which are otherwise much more accessible for gene therapy than neurons) might prevent motoneuron degeneration. The role of muscle cells in the establishment and the degeneration of neuromuscular junctions deserves further attention and investigation. J. Neurosci. Res. 53:663–669, 1998. © 1998 Wiley‐Liss, Inc.