DEG/ENaC but Not TRP Channels Are the Major Mechanoelectrical Transduction Channels in aC. elegansNociceptor

Many nociceptors detect mechanical cues, but the ion channels responsible for mechanotransduction in these sensory neurons remain obscure. Using in vivo recordings and genetic dissection, we identified the DEG/ENaC protein, DEG-1, as the major mechanotransduction channel in ASH, a polymodal nocicept...

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Bibliographic Details
Published in:Neuron (Cambridge, Mass.) Mass.), 2011-09, Vol.71 (5), p.845
Main Authors: Geffeney, Shana L, Cueva, Juan G, Glauser, Dominique A, Doll, Joseph C, Lee, Tim Hau-Chen, Montoya, Misty, Karania, Snetu, Garakani, Arman M, Pruitt, Beth L, Goodman, Miriam B
Format: Article
Language:English
Subjects:
Behavior
Insects
Neurons
Proteins
Rodents
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Summary:Many nociceptors detect mechanical cues, but the ion channels responsible for mechanotransduction in these sensory neurons remain obscure. Using in vivo recordings and genetic dissection, we identified the DEG/ENaC protein, DEG-1, as the major mechanotransduction channel in ASH, a polymodal nociceptor inCaenorhabditis elegans. But DEG-1 is not the only mechanotransduction channel in ASH: loss ofdeg-1revealed a minor current whose properties differ from those expected of DEG/ENaC channels. This current was independent of two TRPV channels expressed in ASH. Although loss of these TRPV channels inhibits behavioral responses to noxious stimuli, we found that both mechanoreceptor currents and potentials were essentially wild-type in TRPV mutants. We propose that ASH nociceptors rely on two genetically distinct mechanotransduction channels and that TRPV channels contribute to encoding and transmitting information. Because mammalian and insect nociceptors also coexpress DEG/ENaCs and TRPVs, the cellular functions elaborated here for these ion channels may be conserved.
ISSN:0896-6273
1097-4199
DOI:10.1016/j.neuron.2011.06.038