Blocking effects of barium and hydrogen ions on the potassium current during anomalous rectification in the starfish egg.

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Blocking effects of barium and hydrogen ions on the potassium current during anomalous rectification in the starfish egg.

S Hagiwara, S Miyazaki, W Moody and J Patlak

1. The blocking effects of Ba+ and H+ on the inward K currentduring anomalous rectification of the giant egg membrane ofthe starfish, Mediaster aequalis, were studied using voltageclamp techniques. 2. External Ba2+ at a low concentration (10--100micron) suppresses the inward K current; the extent of suppression,expressed as the ratio of currents with and without Ba2+, canbe described by a conventional bimolecular adsorption isotherm,K/(K + [Ba2+]o), K being an apparent dissociation constant.3. The dissociation constant, K, decreases as the membrane potentialV becomes more negative and can be expressed by K(V) = K(0)exp (zmuFV/RT), where K(0) is the K at V = 0, z is the chargeof the blocking ion, and mu is a parameter for the membranepotential dependence of Ba2+ blockage. The value of mu rangesbetween 0.64 and 0.68. 4. Upon a sudden change in membrane potentialthe change in the blocking effect of Ba2+ follows first orderkinetics; the forward rate constant is membrane-potential-dependentwhereas the backward constant is potential-independent. 5. Theblocking effect of Ba2+ appears to be independent of the activationof K channels during anomalous rectification. 6. The blockingeffect of Ba2+ depends on V alone, in contrast to the activationof the K channel during anomalous rectification which dependson V--VK. 7. In these respects, the effect of Ba2+ is equivalentto the introduction of inactivation into the anomalous rectification.8. SI2+ and Ca2+ show small but observable blocking effectsonly at much higher concentrations (about 10--20 mM). 9. Theinward K current is suppressed when the external pH is reducedbelow 6.0. The blocking effect of H+ shows no significant potentialdependence. The concentration dependence suggests that threeH+ ions simultaneously titrate the acidic groups of each channel(pK = 5.3--5.4). 10. The implications of these results are discussedin terms of molecular models of the potassium channel of anomalousrectification and possible mechanisms of K channel inactivation.

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