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Abstract
Originally Published 1 November 1994
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K+ currents and K+ channel mRNA in cultured atrial cardiac myocytes (AT-1 cells).

Abstract

Atrial tumor myocytes derived from transgenic mice (AT-1 cells) maintain a well-differentiated cardiac biochemical and histological phenotype. In addition, they beat spontaneously in culture and exhibit long action potentials whose repolarization resembles that observed in native mammalian myocytes. In this study, we identified the major depolarization-activated outward currents in AT-1 cells; also, the presence of mRNAs that encode outwardly conducting ion channels was determined by cloning from an AT-1 cDNA library or by Northern hybridization. Among K+ channel isoforms, Kv2.1, minK, and Kv1.4 were readily detected in tumors and at 1 day in culture. Their abundance remained relatively stable (twofold or less change) after 14 days. The major outward current in AT-1 cells is a delayed rectifier that displays prominent inward rectification, activates rapidly (eg, 182 +/- 27 milliseconds [mean +/- SEM] at + 20 mV, n = 12), exhibits biexponential deactivation kinetics, and is extremely sensitive to the methanesulfonanilide dofetilide (IC50, 12 nmol/L). These characteristics identify this current as IKr, a delayed rectifier observed only in cardiac cells. IKr in AT-1 cells displayed slow inactivation: dofetilide-sensitive deactivating tails were greater after 1-second than after 5-second pulses. When IKr was blocked by > or = 0.5 mumol/L dofetilide, time-independent current was usually recorded (50 of 65 experiments); rapidly inactivating (6 of 65) or slowly inactivating (9 of 65) outward currents were occasionally observed. We conclude that AT-1 cells express mRNAs encoding cardiac K+ channels and display a cardiac electrophysiological phenotype.(ABSTRACT TRUNCATED AT 250 WORDS)

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Published In

Go to Circulation Research
Go to Circulation Research
Circulation Research
Pages: 870 - 878
PubMed: 7923633

History

Published online: 1 November 1994
Published in print: November 1994

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T Yang
Department of Pharmacology, Vanderbilt University School of Medicine, Nashville, Tenn. 37232-6602.
M S Wathen
Department of Pharmacology, Vanderbilt University School of Medicine, Nashville, Tenn. 37232-6602.
A Felipe
Department of Pharmacology, Vanderbilt University School of Medicine, Nashville, Tenn. 37232-6602.
M M Tamkun
Department of Pharmacology, Vanderbilt University School of Medicine, Nashville, Tenn. 37232-6602.
D J Snyders
Department of Pharmacology, Vanderbilt University School of Medicine, Nashville, Tenn. 37232-6602.
D M Roden
Department of Pharmacology, Vanderbilt University School of Medicine, Nashville, Tenn. 37232-6602.

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  1. Biology of the cardiac myocyte in heart disease, Molecular Biology of the Cell, 27, 14, (2149-2160), (2016).https://doi.org/10.1091/mbc.E16-01-0038
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  2. Requisite Role of Kv1.5 Channels in Coronary Metabolic Dilation, Circulation Research, 117, 7, (612-621), (2015)./doi/10.1161/CIRCRESAHA.115.306642
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  3. Isolevuglandin Adducts in Disease, Antioxidants & Redox Signaling, 22, 18, (1703-1718), (2015).https://doi.org/10.1089/ars.2014.6154
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  4. Ionic Mechanisms of Pacemaker Activity in Spontaneously Contracting Atrial HL-1 Cells, Journal of Cardiovascular Pharmacology, 57, 1, (28-36), (2011).https://doi.org/10.1097/FJC.0b013e3181fda7c4
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  5. Presence and functional role of the rapidly activating delayed rectifier K+ current in left and right atria of adult mice, European Journal of Pharmacology, 649, 1-3, (14-22), (2010).https://doi.org/10.1016/j.ejphar.2010.08.025
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  6. Characterization of the Rapidly Activating Delayed Rectifier Potassium Current, I Kr, in HL-1 Mouse Atrial Myocytes, Journal of Membrane Biology, 235, 2, (73-87), (2010).https://doi.org/10.1007/s00232-010-9257-2
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  7. Inhibition of HERG channels stably expressed in a mammalian cell line by the antianginal agent perhexiline maleate, British Journal of Pharmacology, 127, 1, (243-251), (2009).https://doi.org/10.1038/sj.bjp.0702502
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  8. Blockade of HERG channels by the class III antiarrhythmic azimilide: mode of action, British Journal of Pharmacology, 123, 1, (23-30), (2009).https://doi.org/10.1038/sj.bjp.0701575
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  9. Regulation of the Kv2.1 Potassium Channel by MinK and MiRP1, Journal of Membrane Biology, 228, 1, (1-14), (2009).https://doi.org/10.1007/s00232-009-9154-8
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  10. Computationally Efficient Strategy for Modeling the Effect of Ion Current Modifiers, IEEE Transactions on Biomedical Engineering, 55, 1, (3-13), (2008).https://doi.org/10.1109/TBME.2007.896594
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K+ currents and K+ channel mRNA in cultured atrial cardiac myocytes (AT-1 cells).
Circulation Research
  • Vol. 75
  • No. 5

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Circulation Research
  • Vol. 75
  • No. 5
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