Macroscopic K+ currents in single smooth muscle cells of the rabbit portal vein.

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Macroscopic K+ currents in single smooth muscle cells of the rabbit portal vein.

J R Hume and N Leblanc

Department of Physiology, University of Nevada School of Medicine, Reno 89557-0046.

1. Single smooth muscle cells isolated from rabbit portal veinwere voltage clamped at room temperature using the whole-cellconfiguration of the patch-clamp technique. These cells exhibiteda mean resting potential of -47.9 mV and a mean input resistanceof 376 M omega. 2. Using small tip diameter micropipettes (toavoid dialysis of the cells), depolarizing voltage-clamp pulsesfrom a holding potential of -50 mV elicited two distinct outwardcurrents: a quasi-instantaneous background current and a time-dependentcurrent that did not appear to inactivate (delayed rectifier).Upon return to the holding potential, an outward tail currentdecaying back to the holding current was observed. 3. The timecourse of development of the tail current as estimated fromenvelopes of tail current protocols followed the kinetics ofactivation of the delayed rectifier elicited during the precedingtest pulse. The tail current reversed close to the equilibriumpotential for K+ ions indicating that it is mainly carried bypotassium ions. 4. Using large tip diameter micropipettes tointernally dialyse the cells (EGTA = 0.1 mM; ATP = 5 mM), twoadditional outward currents having transient kinetics were revealed:a smooth transient outward current (Ito) and spontaneous transientoutward currents (STOCs). Ito was found to be mainly selectivefor K+ ions and exhibited voltage-dependent inactivation withhalf-maximal availability near -40 mV. 5. Removal of calciumfrom the bathing solution significantly reduced the backgroundcurrent and abolished both Ito and STOCs. The delayed rectifiercurrent appeared to be insensitive to this procedure. The twotypes of transient outward currents were never recorded whenEGTA was elevated to 5 mM inside the micropipette whereas thebackground and delayed rectifier currents were not affected.These results suggested that Ito and the spontaneous transientoutward currents are activated by internal calcium. 6. Externalapplication of TEA (0.5-20 mM) blocked all four outward currents.Calcium replacement by barium significantly reduced the backgroundcurrent and Ito, and had small effects on the delayed rectifiercurrent. When potassium was replaced with caesium (130 mM) andTEA (20 mM) inside the pipette, none of the outward currentsdescribed was ever observed. In about 60% of the cells dialysedwith this solution a small inward Ca2+ current was revealed.7. External application of caffeine (5 mM) abolished STOCs incells in which this activity was present under control conditions.In cells lacking this type of activity under control conditionscaffeine induced and later abolished this type of current.(ABSTRACTTRUNCATED AT 400 WORDS)

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