Time Course of TEA+-Induced Anomalous Rectification in Squid Giant Axons

doi:10.1085/jgp.50.2.491

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ARTICLE

Time Course of TEA⁺-Induced Anomalous Rectification in Squid Giant Axons

Clay M. Armstrong ¹

¹ From the National Institutes of Health, Bethesda, Maryland, and Estacion de Biologia Marina, Viña del Mar, Chile.

Dr. Armstrong's present address is Department of Physiology, Duke University Medical School, Durham, North Carolina

Changes in the voltage clamp currents of squid giant axonswrought by low axoplasmic TEA⁺ (tetraethylammonium chloride)concentrations (0.3 mM and above) are described. They are: (a)For positive steps from the resting potential in sea water,the K⁺ current increases, decreases, then increases, insteadof increasing monotonically. (b) For positive steps from theresting potential in 440 mM external K⁺, the current has anexponentially decaying component, whose decay rate increaseswith axoplasmic [TEA⁺]. The control currents increasemonotonically. (c) For negative steps from the resting potentialin 440 mM external K⁺, the current record has a peak followedby a decay that is slow relative to the control. The controlrecord decreases monotonically. Qualitatively these findingscan be described by a simple kinetic model, from which, withone assumption, it is possible to calculate the rate at whichK⁺ ions move through the K⁺ channels. An interesting conclusionfrom (^c) is that the channels cannot be closed by the normalvoltage-sensitive mechanism (described by Hodgkin and Huxley)until they are free of TEA⁺.

Submitted on January 12, 1966

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