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Failure of postsynaptic specialization to develop at neuromuscular junctions of rapsyn-deficient mice

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Abstract

OF numerous synaptic components that have been identified, perhaps the best-studied are the nicotinic acetylcholine receptors (AChRs) of the vertebrate neuromuscular junction1. AChRs are diffusely distributed on embryonic myotubes, but become highly concentrated (~ 10,000 µm-2) in the postsynaptic membrane as development proceeds. At least two distinct processes contribute to this accumulation. One is local synthesis: subsynaptic muscle nuclei transcribe AChR subunit genes at higher rates than extra-synaptic nuclei, so AChR messenger RNA is concentrated near synaptic sites2,3. Second, once AChRs have been inserted in the membrane, they form high-density clusters by tethering to a sub-synaptic cytoskeletal complex. A key component of this complex is rapsyn, a peripheral membrane protein of relative molecular mass 43K (refs 4, 5), which is precisely colocalized with AChRs at synaptic sites from the earliest stages of neuromuscular synaptogenesis6. In heterologous systems, expression of recombi-nant rapsyn leads to clustering of diffusely distributed AChRs, suggesting that rapsyn may control formation of clusters7,8. To assess the role of rapsyn in vivo, we generated and characterized mutant mice with a targeted disruption of the Rapsn gene. We report that rapsyn is essential for the formation of AChR clusters, but that synapse-specific transcription of AChR subunit genes can proceed in its absence.

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Author notes

  1. Peter G. Noakes

    Present address: School of Anatomy, University of New South Wales, Sydney, NSW 2052, Australia

  2. Peter G. Noakes and Joshua R. Sanes: Anatomy and Neurobiology, Washington University Medical School, 660 South Euclid Avenue, St Louis, Missouri 63110, USA

  3. Joshua R. Sanes: To whom correspondence should be addressed.

Authors and Affiliations

  1. Department of Molecular Biology and Pharmacology,

    Medha Gautam, Jacqueline Mudd, Mia Nichol, Gerald C. Chu & John P. Merlie

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  1. Medha Gautam
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  2. Peter G. Noakes
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  5. Gerald C. Chu
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  6. Joshua R. Sanes
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  7. John P. Merlie
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Gautam, M., Noakes, P., Mudd, J. et al. Failure of postsynaptic specialization to develop at neuromuscular junctions of rapsyn-deficient mice. Nature 377, 232–236 (1995). https://doi.org/10.1038/377232a0

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  • DOI: https://doi.org/10.1038/377232a0

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