Modulation of the delayed rectifier potassium current in frog cardiomyocytes by beta-adrenergic agonists and magnesium.

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Modulation of the delayed rectifier potassium current in frog cardiomyocytes by beta-adrenergic agonists and magnesium.

I Duchatelle-Gourdon, H C Hartzell and A A Lagrutta

Department of Anatomy and Cell Biology, Emory University School of Medicine, Atlanta, GA 30322.

1. The regulation of IK and ICa were studied in single cellsisolated from bull-frog atrium using the whole-cell configurationof the patch clamp and a perfused patch pipette. 2. IK was increasedapproximately 50-100% and ICa was increased approximately 6-10times by 1 microM-isoprenaline, 5 microM-forskolin, or internalperfusion with 30 microM-cyclic AMP. The effects of cyclic AMPand isoprenaline were not additive. The shape of the concentration-responsecurves and the EC50 values for the effects of cyclic AMP onICa and on IK were very similar (2.3 microM for IK and 1.7 microMfor ICa). 3. Elevation of intracellular cyclic AMP had a similareffect on IK regardless of whether ICa was blocked with Cd2+or not. Increasing ICa with dihydropyridine Ca2+ channel agonistshad no effect on IK amplitude. 4. Isoprenaline or cyclic AMPcaused an increase in the fully-activated IK and also shiftedthe activation curves to more negative potentials in most cells.The shift in the activation curve was reversible and was alsoobserved when ICa was blocked with Cd2+. The rate of activationof IK was increased and the rate of deactivation of IK was slowedby isoprenaline. 5. After breaking the membrane patch and initiatingwhole-cell recording, IK ran down with time in about 50% ofthe cells examined when the intracellular solution contained1 mM [Mg2+]. In contrast, when the solution contained 0.3 mM[Mg2+], rundown was almost never observed. Internal perfusionwith increasing concentrations of [Mg2+] caused reversible decreasesin the maximum amplitude of IK and shifted the IK activationcurve slightly to more negative potentials, but had negligibleeffects upon the shape or the curvature of the fully activatedcurrent-voltage relationship.

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