Metz_2007_Anesthesiology_107_971

Reference

Title : An evolutionarily conserved presynaptic protein is required for isoflurane sensitivity in Caenorhabditis elegans - Metz_2007_Anesthesiology_107_971
Author(s) : Metz LB , Dasgupta N , Liu C , Hunt SJ , Crowder CM
Ref : Anesthesiology , 107 :971 , 2007
Abstract :

BACKGROUND: Volatile general anesthetics inhibit neurotransmitter release by an unknown mechanism. A mutation in the presynaptic soluble NSF attachment protein receptor (SNARE) protein syntaxin 1A was previously shown to antagonize the anesthetic isoflurane in Caenorhabditis elegans. The mechanism underlying this antagonism may identify presynaptic anesthetic targets relevant to human anesthesia.
METHODS: Sensitivity to isoflurane concentrations in the human clinical range was measured in locomotion assays on adult C. elegans. Sensitivity to the acetylcholinesterase inhibitor aldicarb was used as an assay for the global level of C. elegans neurotransmitter release. Comparisons of isoflurane sensitivity (measured by the EC50) were made by simultaneous curve fitting and F test as described by Waud.
RESULTS: Expression of a truncated syntaxin fragment (residues 1-106) antagonized isoflurane sensitivity in C. elegans. This portion of syntaxin interacts with the presynaptic protein UNC-13, suggesting the hypothesis that truncated syntaxin binds to UNC-13 and antagonizes an inhibitory effect of isoflurane on UNC-13 function. Consistent with this hypothesis, overexpression of UNC-13 suppressed the isoflurane resistance of the truncated syntaxins, and unc-13 loss-of-function mutants were highly isoflurane resistant. Normal anesthetic sensitivity was restored by full-length UNC-13, by a shortened form of UNC-13 lacking a C2 domain, but not by a membrane-targeted UNC-13 that might bypass isoflurane inhibition of membrane translocation of UNC-13. Isoflurane was found to inhibit synaptic localization of UNC-13.
CONCLUSIONS: These data show that UNC-13, an evolutionarily conserved protein that promotes neurotransmitter release, is necessary for isoflurane sensitivity in C. elegans and suggest that its vertebrate homologs may be a component of the general anesthetic mechanism.

PubMedSearch : Metz_2007_Anesthesiology_107_971
PubMedID: 18043066

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Citations formats

Metz LB, Dasgupta N, Liu C, Hunt SJ, Crowder CM (2007)
An evolutionarily conserved presynaptic protein is required for isoflurane sensitivity in Caenorhabditis elegans
Anesthesiology 107 :971

Metz LB, Dasgupta N, Liu C, Hunt SJ, Crowder CM (2007)
Anesthesiology 107 :971