Inactivation of voltage-gated delayed potassium current in molluscan neurons. A kinetic model.

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Inactivation of voltage-gated delayed potassium current in molluscan neurons. A kinetic model.

R W Aldrich

ABSTRACT

Voltage-gated delayed potassium current in molluscan neuronsis characterized by a marked inactivation. Inactivation canaccumulate between repetitive pulses, giving rise to currentpatterns in which the maximum current during a second voltagepulse is less than the current at the end of the preceding pulse(cumulative inactivation). Other features of inactivation ofthis current include an onset time-course that can be characterizedby the sum of two exponential processes and an early minimumin the recovery-vs.-time curve. A simple four-state model isdeveloped that can, when supplied with rate constants derivedfrom voltage-clamp experiments, reproduce these features ofinactivation. The model incorporates state-dependent inactivationrates. Upon depolarization, both open and closed channels canbe inactivated, although inactivation of closed channels ismuch faster. Upon repolarization, recovery from inactivatedstates is sufficiently slow that little recovery occurs duringa short interpulse interval. Cumulative inactivation comes aboutas a result of fast inactivation during the second pulse, furtherlimiting the peak current from the level at the end of the previouspulse.

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