Rapsyn, a 43-kDa peripheral membrane protein of skeletal muscle, is essential for clustering nicotinic acetylcholine receptors (nAChR) in the postsynaptic membrane. Previous studies with rapsyn NH 2 -terminal fragments fused to green fluorescent protein, expressed in 293T cells along with nAChRs, establish the following: Rapsyn-(1-90), containing the myristoylated amino terminus and two tetratricopeptide repeats (TPRs), was sufficient for self-association at the plasma membrane; rapsyn-(1-287), containing seven TPRs, did not cluster nAChRs; whereas rapsyn-(1-360) , containing a coiledcoil domain (rapsyn-(298 -331)), clustered nAChRs. To further analyze the role of rapsyn structural domains in self-association and nAChR clustering, we have characterized the clustering properties of additional rapsyn mutants containing deletions and substitutions within the TPR and coiled-coil domains. A mutant lacking the coiled-coil domain alone (rapsyn-(OE288 -348)), failed to cluster nAChRs. Within the coiled-coil domain neutralization of the charged side chains was tolerated, while alanine substitutions of large hydrophobic residues resulted in the loss of nAChR clustering. Rapsyn self-association requires at least two TPRs, as a single TPR (TPR1 or TPR2 alone) was not sufficient. While TPRs 1 and 2 are sufficient for self-association, they are not necessary, as TPRs 3-7 also formed clusters similar to wild-type rapsyn. Fragments containing TPRs co-localized with full-length rapsyn, while the expressed coiledcoil or RING-H2 domain did not. These results are discussed in terms of a homology model of rapsyn, based on the three-dimensional structure of the TPR domain of protein phosphatase 5.A characteristic and important feature of the vertebrate neuromuscular junction is the clustering of nicotinic acetylcholine receptors (nAChR) 1 at high surface density (ϳ10,000/ 2 ) in the post-synaptic membrane underlying the nerve terminal, with the nAChR surface density decreasing by a factor of 100 -1000 within a few microns. Rapsyn, a peripheral membrane protein of muscle, plays a critical role in the clustering of nAChRs and in the organization of the postsynaptic cytoskeletal complex (for a recent review, see Ref. 1). Mutant mice lacking rapsyn show severe neuromuscular abnormality marked by the absence of nAChR clusters in the postsynaptic membrane as well as the absence of cytoskeletal components such as utrophin and dystroglycan (2).When expressed in nonmuscle cells, rapsyn forms membrane-associated clusters and recruits nAChRs to these clusters (3-6). Furthermore, when coexpressed in fibroblasts rapsyn also clusters -dystroglycan, the integral membrane protein of the dystrophin complex (7), as well as the agrin receptor, the receptor tyrosine kinase MuSK (8 -10). Biochemical studies provide evidence for a direct interaction between rapsyn and the cytoplasmic domain of -dystroglycan (11).The three-dimensional structure of rapsyn is not known. However, rapsyn primary structure suggests the presence of distinct structural domains ...
