The Muscle Protein Dok-7 Is Essential for Neuromuscular Synaptogenesis

Kumiko Okada(Tokyo Medical and Dental University), Akane Inoue(Tokyo Medical and Dental University), Momoko Okada(Tokyo Medical and Dental University), Yoji Murata(Tokyo Medical and Dental University), Shigeru Kakuta(Tokyo Medical and Dental University), Takafumi Jigami(Tokyo Medical and Dental University), Sachiko Kubo(Tokyo Medical and Dental University), Hirokazu Shiraishi(Tokyo Medical and Dental University), Katsumi Eguchi(Tokyo Medical and Dental University), Masakatsu Motomura(Tokyo Medical and Dental University), Tetsu Akiyama(Tokyo Medical and Dental University), Yoichiro Iwakura(Tokyo Medical and Dental University), Osamu Higuchi(Tokyo Medical and Dental University), Yuji Yamanashi(Tokyo Medical and Dental University)
Science
June 22, 2006
10.1126/science.1127142
Cited by 427

Abstract

The formation of the neuromuscular synapse requires muscle-specific receptor kinase (MuSK) to orchestrate postsynaptic differentiation, including the clustering of receptors for the neurotransmitter acetylcholine. Upon innervation, neural agrin activates MuSK to establish the postsynaptic apparatus, although agrin-independent formation of neuromuscular synapses can also occur experimentally in the absence of neurotransmission. Dok-7, a MuSK-interacting cytoplasmic protein, is essential for MuSK activation in cultured myotubes; in particular, the Dok-7 phosphotyrosine-binding domain and its target in MuSK are indispensable. Mice lacking Dok-7 formed neither acetylcholine receptor clusters nor neuromuscular synapses. Thus, Dok-7 is essential for neuromuscular synaptogenesis through its interaction with MuSK.

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