Caveolin-3 Promotes Nicotinic Acetylcholine Receptor Clustering and Regulates Neuromuscular Junction Activity

The molecular mechanisms that regulate the organization and activity of the neuromuscular junction remain to be fully identified. Caveolae are invaginations of the plasma membrane. Caveolin-3 is the structural protein component of caveolae in muscle cells. We show that caveolin-3 is expressed at the neuromuscular junction, that it associates with the nicotinic acetylcholine receptor (nAChR), and that a lack of caveolin-3 inhibits clustering of the nAChR in myotubes. At the molecular level, we demonstrate that caveolin-3 is a novel muscle-specific kinase (MuSK) binding protein and that altered nAChR clustering in caveolin-3–lacking myotubes results from inhibition of agrin-induced phosphorylation/activation of MuSK and activation of Rac-1. Functional studies in caveolin-3 null mice show abnormal neuromuscular junction activity that is consistent with altered nAChR localization at the sarcolemma. Together, these data identify caveolin-3 as a critical component of the signaling machinery that drives nicotinic acetylcholine receptor clustering and controls neuromuscular junction function.