Interactions of aminopyridines with potassium channels of squid axon membranes.

J Z Yeh, G S Oxford, C H Wu and T Narahashi

ABSTRACT

The effects of aminopyridines on ionic conductances of the squidgiant axon membrane were examined using voltage clamp and internalperfusion techniques. 4-Aminopyridine (4-AP) reduced potassiumcurrents, but had no effect upon transient sodium currents.The block of potassium channels by 4-AP was substantially lesswith (a) strong depolarization to positive membrane potentials,(b) increasing the duration of a given depolarizing step, and(c) increasing the frequency of step depolarizations. Experimentswith high external potassium concentrations revealed that theeffect of 4-AP was independent of the direction of potassiumion movement. Both 3- and 2-aminopyridine were indistinguishablefrom 4-AP except in potency. It is concluded that aminopyrimidinesmay be used as tools to block the potassium conductance in excitable membranes, but only within certain specific voltageand frequency limits.

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