Calcium activates and inactivates a photoreceptor soma potassium current.

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Calcium activates and inactivates a photoreceptor soma potassium current.

D L Alkon and M Sakakibara

ABSTRACT

Light-induced currents were measured with a two-microelectrodevoltage clamp of type B photoreceptor somata, which had beenisolated by axotomy from all synaptic interactions as well asfrom all membranes capable of generating impulse activity. Inartificial seawater (ASW), light elicited a transient earlyinward current, INa+, which depended on Na+o and had a linearcurrent-voltage relation and an extrapolated reversal potentialof 30-40 mV (absolute). In 0-Na+ ASW, light elicited a transientshort-latency outward current that dependent on K+o, increasedexponentially with more positive voltages (greater than or equalto -40 mV), and reversed at -70 to -75 mV. This outward currentwas not blocked by Ca++ channel blockers (e.g., Cd++, Co++)or substitution of Ba++o, for Ca++o, but was reduced by iontophoreticinjection of EGTA. In both ASW and 0-Na+ ASW, light also eliciteda delayed, apparently inward current, which was associated witha decreased conductance, depended on K+o, increased exponentiallywith more positive voltages (greater than or equal to -40 mV),reversed at the equilibrium potential for K+ flux in elevatedK+o was eliminated by substitution of Ba++o for Ca++o, and wasgreatly reduced by Cd++o or Co++o. Thus, light elicited an earlyCa++-dependent K+ current, IC, and a prolonged decrease of IC.Iontophoretic injection of Ca++ through a third microelectrodecaused prolonged reduction of both IC and the light-induceddecrease of IC, but did not alter ICa++ or the current-voltagerelation of IC. Ruthenium red (1 microM) in the external mediumcaused a prolongation of the light-induced decrease of IC. Iontophoreticinjection of EGTA often eliminated the light-induced IC decreasewhile decreasing peak IC (during depolarizing steps to -5 or0 mV) by less than one-half. EGTA injection, on the average,did not affect steady state IC but reduced the light-induceddecrease of steady state IC to approximately one-third of itsoriginal magnitude. The prolonged IC decrease, elicited by dimlight in the absence of light-induced IC or INa+, was more completelyeliminated by EGTA injection. It was concluded that light, inaddition to inducing a transient inward Na+ current, causesboth a transient increase and a prolonged decrease of IC viaelevation of Ca++i.

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