Synapse disassembly and formation of new synapses in postnatal muscle upon 
conditional inactivation of MuSK

Hesser, Boris; Henschel, Oliver; Witzemann, Veit

doi:10.1016/j.mcn.2005.10.020

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Synapse disassembly and formation of new synapses in postnatal muscle upon conditional inactivation of MuSK

MPG-Autoren

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Hesser, Boris
Department of Cell Physiology, Max Planck Institute for Medical Research, Max Planck Society;

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Henschel, Oliver
Working Group Witzemann / Koenen, Max Planck Institute for Medical Research, Max Planck Society;

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Witzemann, Veit
Department of Molecular Neurobiology, Max Planck Institute for Medical Research, Max Planck Society;
Department of Cell Physiology, Max Planck Institute for Medical Research, Max Planck Society;

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http://dx.doi.org/10.1016/j.mcn.2005.10.020
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Zitation

Hesser, B., Henschel, O., & Witzemann, V. (2006). Synapse disassembly and formation of new synapses in postnatal muscle upon conditional inactivation of MuSK. Molecular and Cellular Neuroscience, 31(3), 470-480. doi:10.1016/j.mcn.2005.10.020.

Zitierlink: https://hdl.handle.net/11858/00-001M-0000-002A-EAC4-6

Zusammenfassung

The muscle-specific-kinase MuSK is required for the formation of acetylcholine receptor clusters during embryonic development, but its physiological role in adult muscle is not known. We used the loxP/Cre system in mice to conditionally inactivate MuSK whereby expression of Cre recombinase increases during postnatal development. The MuSK-inactivated mice develop myasthenic symptoms and die prematurely due to severe muscle weakness. The postnatal inactivation of MuSK causes loss of acetylcholine receptors and disassembly of the postsynaptic organization and innervating axons retract but start to grow and branch extensively. Due to the mosaic expression of Cre recombinase, MuSK is not globally inactivated and new synapses are formed aberrantly patterned across the diaphragm. Our findings demonstrate that MuSK kinase activity is required throughout postnatal development to hold up MuSK and AChR levels at endplates. Thus, MuSK and AChR together maintain the functional and structural integrity of the postsynaptic architecture and prevent axon growth.