2014
DOI: 10.1007/s00424-014-1536-9
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Mechanotransduction in the muscle spindle

Abstract: The focus of this review is on the principal sensory ending of the mammalian muscle spindle, known as the primary ending. The process of mechanosensory transduction in the primary ending is examined under five headings: (i) action potential responses to defined mechanical stimuli—representing the ending's input–output properties; (ii) the receptor potential—including the currents giving rise to it; (iii) sensory-terminal deformation—measurable changes in the shape of the primary-ending terminals correlated wit… Show more

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Cited by 99 publications
(157 citation statements)
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References 76 publications
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“…The work of Bewick and Banks gives evidence for a glutamate-dependent autogenic excitatory mechanism (Fig. 6), which increases IA afferent firing (Bewick et al 2005; Bewick & Banks, 2014). It is reasonable then to speculate that riluzole reduces static firing by impeding glutamate signaling within the IA afferent terminal.…”
Section: Main Bodymentioning
confidence: 94%
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“…The work of Bewick and Banks gives evidence for a glutamate-dependent autogenic excitatory mechanism (Fig. 6), which increases IA afferent firing (Bewick et al 2005; Bewick & Banks, 2014). It is reasonable then to speculate that riluzole reduces static firing by impeding glutamate signaling within the IA afferent terminal.…”
Section: Main Bodymentioning
confidence: 94%
“…Receptor potential size and shape reflect different dynamic and static components of mechanical perturbations (Hunt & Ottoson, 1975). Recent evidence indicates that epithelial sodium channels may be responsible for the Na + current of the receptor potential (Simon et al 2010), but the channel responsible for Ca 2+ current has yet to be adequately characterized (Bewick & Banks, 2014). In the next step of peripheral signaling, the receptor potential spreads electronically to the unmyelinated heminode of the IA afferent terminal where its features are encoded in the firing pattern of action potentials generated by voltage-gated Na + and K + channels.…”
Section: Main Bodymentioning
confidence: 99%
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“…Essential forcetransducing channels have been identified in bacteria and invertebrate organisms [2,4,17]. Multiple mechanosensory protein complexes have also been described in cardiac myocytes [7], skeletal muscles [1], and vascular cells [12]. Although, the sensations of touch and hearing remain without a clear understanding of their molecular basis, we are now beginning to uncover molecular players that govern the mechanosensory functions of these receptors [3,4,6,8,10,11,13,16].…”
mentioning
confidence: 99%