Abstract
Voltage-gated sodium channels are essential for the initiation and propagation of action potentials in excitable cells and are known as a target of local anesthetics. In addition, inhibition of sodium channels by volatile anesthetics has been proposed as a mechanism of general anesthesia. The n-alcohols produce anesthesia, and their potency increases with carbon number until a “cut-off” is reached. In this study, we examined effects of a range of n-alcohols on Nav1.2 subunits to determine the alcohol cut-off for this channel. We also studied the effect of a short-chain alcohol (ethanol) and a long-chain alcohol (octanol) on Nav1.2, Nav1.4, Nav1.6, and Nav1.8 subunits, and we investigated the effects of alcohol on channel kinetics. Ethanol and octanol inhibited sodium currents of all subunits, and the inhibition of the Nav1.2 channel by n-alcohols indicated a cut-off at nonanol. Ethanol and octanol produced open-channel block, which was more pronounced for Nav1.8 than for the other sodium channels. Inhibition of Nav1.2 was due to decreased activation and increased inactivation. These results suggest that sodium channels may have a hydrophobic binding site for n-alcohols and demonstrate the differences in the kinetic mechanisms of inhibition for n-alcohols and inhaled anesthetics.
Footnotes
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This study was supported by National Institutes of Health Grants GM47818 and AA06399 (to R.A.H.).
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Article, publication date, and citation information can be found at http://jpet.aspetjournals.org.
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doi:10.1124/jpet.108.138370.
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ABBREVIATIONS:n-alcohol, normal alcohol; Nav, voltage-gated Na+ channel(s); DRG, dorsal root ganglion; TTX, tetrodotoxin; I-V, current voltage relationship; ANOVA, analysis of variance; INa, Na+ inward current(s); NMDA, N-methyl-d-aspartate; ΔΔG, Gibb's free energy change; TTX-R, tetrodotoxin-resistant; TTX-S, tetrodotoxin-sensitive.
- Received February 25, 2008.
- Accepted April 22, 2008.
- The American Society for Pharmacology and Experimental Therapeutics
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