Protein kinase C co-expression and the effects of halothane on rat skeletal muscle sodium channels.

1. Voltage-gated Na channels, which are potential targets for general anaesthetics, are substrates for PKC, which phosphorylates a conserved site in the channel inactivation gate. We investigated the idea that PKC modulates the effect of volatile anaesthetics on Na channels via phosphorylation of this inactivation gate site. 2. Na currents through rat skeletal muscle Na channel alpha-subunits expressed in Xenopus oocytes were measured by two-microelectrode voltage clamp in the presence of the volatile anaesthetic agent halothane (2-bromo-2-chloro-1,1,1-trifluroethane). PKC activity was modulated by co-expression of a constitutively active PKC alpha-isozyme. 3. Halothane (0.4 mM) had no effect on Na currents. With co-expression of PKC, however, halothane dose-dependently enhanced the rate of Na current decay and caused a small, but statistically significant reduction in Na current amplitude. 4. The enhancement of Na current decay was absent in a Na channel mutant in which the inactivation gate phosphorylation site was disabled. Effects of halothane on amplitude were independent of this mutation. 5. Co-expression of a PKC alpha-isozyme permits an effect of halothane to hasten current decay and reduce current amplitude, at least in part through interaction with the inactivation gate phosphorylation site. We speculate that the interaction between halothane and Na channels is direct, and facilitated by PKC activity and by phosphorylation of a site in the channel inactivation gate.