Some effects of n‐pentane on the sodium and potassium currents of the squid giant axon.

Abstract

1. Sodium and potassium currents have been recorded in intracellularly perfused squid giant axons before, during and after exposure to solutions of n‐pentane in artificial sea water. 2. The currents were fitted with equations similar to those proposed by Hodgkin & Huxley (1952) and the changes in the parameters of these equations in the presence of pentane were calculated. 3. In the range of membrane potential ‐40 to 40 mV, the time constants for activation (tau m) and inactivation (tau h) of the Na current, and for activation (tau n) of the K current were all reduced by the pentane. 4. The curve of the steady‐state inactivation parameter (h infinity) for the Na current against membrane potential was shifted by the pentane in a hyperpolarizing direction (at h infinity = 0.5 this shift was approx. ‐15 mV in 275 microM‐pentane) and the slope at all potentials was reduced. 5. The curve of the steady‐state activation parameter (m infinity) for the Na current against membrane potential was also shifted by the pentane in a hyperpolarizing direction (in 153 microM‐pentane, 10 mV at m infinity = 0.5). 6. The maximum Na and K conductances gNa and gK were lowered by the pentane, though not usually completely reversibly. 7. The changes in position and slope of the steady‐state inactivation curve have been tentatively accounted for in terms of an increase in membrane thickness.