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Differential regulation of AChR clustering in the polar and equatorial region of murine muscle spindles.
Eur. J. Neurosci. 41, 69-78 (2015)
Intrafusal fibers of muscle spindles are innervated in the central region by afferent sensory axons and at both polar regions by efferent γ-motoneurons. We previously demonstrated that both neuron-muscle contact sites contain cholinergic synapse-like specialisation, including aggregates of the nicotinic acetylcholine receptor (AChR). In this study we tested the hypothesis that agrin and its receptor complex (consisting of LRP4 and the tyrosine kinase MuSK) are involved in the aggregation of AChRs in muscle spindles, similar to their role at the neuromuscular junction. We show that agrin, MuSK and LRP4 are concentrated at the contact site between the intrafusal fibers and the sensory- and γ-motoneuron, respectively, and that they are expressed in the cell bodies of proprioceptive neurons in dorsal root ganglia. Moreover, agrin and LRP4, but not MuSK, are expressed in γ-motoneuron cell bodies in the ventral horn of the spinal cord. In agrin- and in MuSK-deficient mice, AChR aggregates are absent from the polar regions. In contrast, the subcellular concentration of AChRs in the central region where the sensory neuron contacts the intrafusal muscle fiber is apparently unaffected. Skeletal muscle-specific expression of miniagrin in agrin(-/-) mice in vivo is sufficient to restore the formation of γ-motoneuron endplates. These results show that agrin and MuSK are major determinants during the formation of γ-motoneuron endplates but appear dispensable for the aggregation of AChRs at the central region. Our results therefore suggest different molecular mechanisms for AChR clustering within two domains of intrafusal fibers.
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Publication type
Article: Journal article
Document type
Scientific Article
Keywords
Agrin ; Intrafusal Fiber ; Muscle-specific Kinase ; Proprioception ; Synaptogenesis; Gamma-motor-neurons; Neuromuscular-junction Formation; Heparan-sulfate Proteoglycan; Mutant Mice; Spinal-cord; Acetylcholine-receptors; Myotendinous Junction; Neurite Outgrowth; Sensory Neurons; Agrin
ISSN (print) / ISBN
0953-816X
e-ISSN
1460-9568
Journal
European Journal of Neuroscience
Quellenangaben
Volume: 41,
Issue: 1,
Pages: 69-78
Publisher
Wiley
Publishing Place
Hoboken
Non-patent literature
Publications
Reviewing status
Peer reviewed
Institute(s)
Institute of Stem Cell Research (ISF)