Neuregulin-1 Potentiates Agrin-Induced Acetylcholine Receptor Clustering via Muscle Specific Kinase Phosphorylation

Abstract

At neuromuscular synapses, neural agrin (n-agrin) stabilizes embryonic postsynaptic acetylcholine receptor (AChR) clusters by signaling through the Muscle Specific Kinase (MuSK) complex. Live imaging of cultured myotubes showed that the formation and disassembly of primitive AChR clusters is a dynamic and reversible process favoured by n-agrin, and possibly other synaptic signals. Neuregulin-1 is a growth factor that can act via muscle ErbB receptor kinases to enhance synaptic gene transcription. Recent studies suggest that neuregulin-1-ErbB signaling can modulate n-agrin-induced AChR clustering independent of its effects on transcription. Here we report that when injected into muscles of embryonic mice, neuregulin-1increased the size of developing AChR clusters. We investigated this phenomenon using cultured myotubes, and found thatin the ongoing presence of n-agrin,neuregulin-1 potentiates AChR clustering by increasing the tyrosine phosphorylation of MuSK. Thispotentiation could be blocked by inhibiting Shp2, a postsynaptic tyrosine phosphatase known to modulate the activity of MuSK. Our results provide new evidence that neuregulin-1 modulates the signaling activity of MuSK and hence may function as a second order regulator of postsynaptic AChR clustering at the neuromuscular synapse. Thus two classic synaptic signaling systems (neuregulin-1 and n-agrin) converge upon MuSK to regulate postsynaptic differentiation.