Anti-minK Antisense Decreases the Amplitude of the Rapidly Activating Cardiac Delayed Rectifier K+ Current

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Circulation Research. 1995;77:1246-1253

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(Circulation Research. 1995;77:1246-1253.)
© 1995 American Heart Association, Inc.

Articles

Anti-minK Antisense Decreases the Amplitude of the Rapidly Activating Cardiac Delayed Rectifier K⁺ Current

Tao Yang, Sabina Kupershmidt, Dan M. Roden

From the Vanderbilt University School of Medicine, Departments of Medicine and Pharmacology, Nashville, Tenn.

Correspondence to Dan M. Roden, MD, Director, Division of Clinical Pharmacology, 532 Medical Research Bldg, Vanderbilt University School of Medicine, Nashville, TN 37232-6602.

Abstract The rapidly and slowly activating delayed rectifier K⁺currents (I_Kr and I_Ks, respectively), which have different physiological properties,have been identified in cardiac cells from several species, includinghumans. Although expression of the minimal K⁺ channel protein(minK) cDNA in some systems results in a current resemblingI_Ks, the role of this gene product in channel function remainscontroversial. In atrial tumor myocytes (AT-1 cells), no I_Ksis recorded, but minK mRNA is detected, raising the possibilitythat expression of the minK gene serves an as-yet-unidentifiedfunction. In these experiments, AT-1 cells were exposed to antisenseoligonucleotides targeting the 5' translation start site ofthe minK cDNA cloned from an AT-1 library. Cell size, I_Kr, andL-type and T-type Ca²⁺ currents were measured 24 to 48 hoursafter exposure and compared with data in cells exposed to thecorresponding sense oligonucleotide or grown in medium only. Antisenseoligonucleotide significantly reduced I_Kr compared with senseand medium-only control cells in 0 of 2 experiments (n=3 to6 cells per treatment in each experiment) at 50 nmol/L, 1 of2 at 250 nmol/L, 6 of 6 at 1000 nmol/L, and 2 of 2 at 10 000nmol/L. At 1000 nmol/L, maximum tail current in antisense-exposedcells was 2.5±0.1 pA/pF (mean±SEM, n=28, 6 separateexperiments), 6.6±0.4 pA/pF in sense-exposed cells (n=27),5.4±0.6 pA/pF in medium-only cells (n=21), and 5.8±0.7 pA/pFin cells exposed to a random oligonucleotide (n=9). I_Kr activation,rectification, deactivation, and sensitivity to the blockerdofetilide were unaffected. Two different antisense oligonucleotidesproduced the same effect, and there was no effect of antisensetreatment on cell size or on L- or T-type Ca²⁺ currents. Thesedata indicate that in AT-1 cells, expression of the minK geneplays a role in determining I_Kr amplitude.

Key Words: delayed rectifier K⁺ current • minimal K⁺ channel protein • AT-1 cells

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				J. Feng, B. Wible, G.-R. Li, Z. Wang, and S. Nattel Antisense Oligodeoxynucleotides Directed Against Kv1.5 mRNA Specifically Inhibit Ultrarapid Delayed Rectifier K+ Current in Cultured Adult Human Atrial Myocytes Circ. Res., April 19, 1997; 80(4): 572 - 579. [Abstract] [Full Text]

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