TY - JOUR
T1 - In vivo imaging of C. elegans mechanosensory neurons demonstrates a specific role for the MEC-4 channel in the process of gentle touch sensation
AU - Suzuki, Hiroshi
AU - Kerr, Rex
AU - Bianchi, Laura
AU - Frøkjær-Jensen, Christian
AU - Slone, Dan
AU - Xue, Jian
AU - Gerstbrein, Beate
AU - Driscoll, Monica
AU - Schafer, William R.
N1 - Funding Information:
We thank Atsushi Miyawaki for providing YC2.12 before publication, Michael Christensen and Kevin Strange for help with cell culture, members of our labs for discussions, and Garth Patterson for critical reading of the manuscript. We also thank Roger Tsien and Oded Tour for the use of equipment and suggestions on improving the reliability of the technique. This work was supported by grants from the NIH (to W.R.S and M.D.), the Human Frontiers Science Program (to W.R.S.), a postdoctoral training grant from the NIH (to R.K.), and the Pskiatrisk Forskningsfond and Novo Nordisk (to C.F-J.).
PY - 2003/9/11
Y1 - 2003/9/11
N2 - In the nematode C. elegans, genes encoding components of a putative mechanotransducing channel complex have been identified in screens for light-touch-insensitive mutants. A long-standing question, however, is whether identified MEC proteins act directly in touch transduction or contribute indirectly by maintaining basic mechanoreceptor neuron physiology. In this study, we used the genetically encoded calcium indicator cameleon to record cellular responses of mechanosensory neurons to touch stimuli in intact, behaving nematodes. We defined a gentle touch sensory modality that adapts with a time course of approximately 500 ms and primarily senses motion rather than pressure. The DEG/ENaC channel subunit MEC-4 and channel-associated stomatin MEC-2 are specifically required for neural responses to gentle mechanical stimulation, but do not affect the basic physiology of touch neurons or their in vivo responses to harsh mechanical stimulation. These results distinguish a specific role for the MEC channel proteins in the process of gentle touch mechanosensation.
AB - In the nematode C. elegans, genes encoding components of a putative mechanotransducing channel complex have been identified in screens for light-touch-insensitive mutants. A long-standing question, however, is whether identified MEC proteins act directly in touch transduction or contribute indirectly by maintaining basic mechanoreceptor neuron physiology. In this study, we used the genetically encoded calcium indicator cameleon to record cellular responses of mechanosensory neurons to touch stimuli in intact, behaving nematodes. We defined a gentle touch sensory modality that adapts with a time course of approximately 500 ms and primarily senses motion rather than pressure. The DEG/ENaC channel subunit MEC-4 and channel-associated stomatin MEC-2 are specifically required for neural responses to gentle mechanical stimulation, but do not affect the basic physiology of touch neurons or their in vivo responses to harsh mechanical stimulation. These results distinguish a specific role for the MEC channel proteins in the process of gentle touch mechanosensation.
UR - http://www.scopus.com/inward/record.url?scp=0141741337&partnerID=8YFLogxK
U2 - 10.1016/j.neuron.2003.08.015
DO - 10.1016/j.neuron.2003.08.015
M3 - Article
C2 - 12971899
AN - SCOPUS:0141741337
SN - 0896-6273
VL - 39
SP - 1005
EP - 1017
JO - Neuron
JF - Neuron
IS - 6
ER -