A stomatin-domain protein essential for touch sensation in the mouse
A stomatin-domain protein essential for touch sensation in the mouse
Touch and mechanical pain are first detected at our largest sensory surface, the skin. The cell bodies of sensory neurons that detect such stimuli are located in the dorsal root ganglia, and subtypes of these neurons are specialized to detect specific modalities of mechanical stimuli. Molecules have been identified that are necessary for mechanosensation in invertebrates but so far not in mammals. In Caenorhabditis elegans, mec-2 is one of several genes identified in a screen for touch insensitivity and encodes an integral membrane protein with a stomatin homology domain1. Here we show that about 35% of skin mechanoreceptors do not respond to mechanical stimuli in mice with a mutation in stomatin-like protein 3 (SLP3, also called Stoml3), a mammalian mec-2 homologue that is expressed in sensory neurons. In addition, mechanosensitive ion channels found in many sensory neurons do not function without SLP3. Tactile-driven behaviours are also impaired in SLP3 mutant mice, including touch-evoked pain caused by neuropathic injury. SLP3 is therefore indispensable for the function of a subset of cutaneous mechanoreceptors, and our data support the idea that this protein is an essential subunit of a mammalian mechanotransducer.
206-209
Wetzel, C.
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Hu, J.
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Riethmacher, D.
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Benckendorff, A.
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Harder, L.
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Eilers, A.
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Moshourab, R.
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Kozlenkov, A.
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Labuz, D.
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Caspani, O
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Erdmann, B.
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Machelska, H.
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Heppenstall, P.A.
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Lewin, G.R.
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11 January 2007
Wetzel, C.
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Hu, J.
bc03f2c8-b504-4720-81f6-5ccd3f9a36e3
Riethmacher, D.
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Benckendorff, A.
a80e670c-093c-43cc-b030-97a12cc257eb
Harder, L.
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Eilers, A.
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Moshourab, R.
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Kozlenkov, A.
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Labuz, D.
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Caspani, O
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Erdmann, B.
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Machelska, H.
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Heppenstall, P.A.
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Lewin, G.R.
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Wetzel, C., Hu, J., Riethmacher, D., Benckendorff, A., Harder, L., Eilers, A., Moshourab, R., Kozlenkov, A., Labuz, D., Caspani, O, Erdmann, B., Machelska, H., Heppenstall, P.A. and Lewin, G.R.
(2007)
A stomatin-domain protein essential for touch sensation in the mouse.
Nature, 445 (7124), .
(doi:10.1038/nature05394).
Abstract
Touch and mechanical pain are first detected at our largest sensory surface, the skin. The cell bodies of sensory neurons that detect such stimuli are located in the dorsal root ganglia, and subtypes of these neurons are specialized to detect specific modalities of mechanical stimuli. Molecules have been identified that are necessary for mechanosensation in invertebrates but so far not in mammals. In Caenorhabditis elegans, mec-2 is one of several genes identified in a screen for touch insensitivity and encodes an integral membrane protein with a stomatin homology domain1. Here we show that about 35% of skin mechanoreceptors do not respond to mechanical stimuli in mice with a mutation in stomatin-like protein 3 (SLP3, also called Stoml3), a mammalian mec-2 homologue that is expressed in sensory neurons. In addition, mechanosensitive ion channels found in many sensory neurons do not function without SLP3. Tactile-driven behaviours are also impaired in SLP3 mutant mice, including touch-evoked pain caused by neuropathic injury. SLP3 is therefore indispensable for the function of a subset of cutaneous mechanoreceptors, and our data support the idea that this protein is an essential subunit of a mammalian mechanotransducer.
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Published date: 11 January 2007
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Local EPrints ID: 48500
URI: http://eprints.soton.ac.uk/id/eprint/48500
ISSN: 0028-0836
PURE UUID: f9fbf352-d0f5-44c7-8e34-1154c78c38c7
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Date deposited: 26 Sep 2007
Last modified: 16 Mar 2024 03:56
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Contributors
Author:
C. Wetzel
Author:
J. Hu
Author:
D. Riethmacher
Author:
A. Benckendorff
Author:
L. Harder
Author:
A. Eilers
Author:
R. Moshourab
Author:
A. Kozlenkov
Author:
D. Labuz
Author:
O Caspani
Author:
B. Erdmann
Author:
H. Machelska
Author:
P.A. Heppenstall
Author:
G.R. Lewin
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