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The Journal of General Physiology, Vol 101, 513-543, Copyright © 1993 by The Rockefeller University Press
ARTICLES |
DJ Snyders, MM Tamkun and PB Bennett
Department of Medicine, Vanderbilt University School of Medicine, Nashville, Tennessee 37232-2171.
The electrophysiological properties of HK2 (Kv1.5), a K+ channel cloned from human ventricle, were investigated after stable expression in a mouse Ltk- cell line. Cell lines that expressed HK2 mRNA displayed a current with delayed rectifier properties at 23 degrees C, while sham transfected cell lines showed neither specific HK2 mRNA hybridization nor voltage-activated currents under whole cell conditions. The expression of the HK2 current has been stable for over two years. The dependence of the reversal potential of this current on the external K+ concentration (55 mV/decade) confirmed K+ selectivity, and the tail envelope test was satisfied, indicating expression of a single population of K+ channels. The activation time course was fast and sigmoidal (time constants declined from 10 ms to < 2 ms between 0 and +60 mV). The midpoint and slope factor of the activation curve were Eh = -14 +/- 5 mV and k = 5.9 +/- 0.9 (n = 31), respectively. Slow partial inactivation was observed especially at large depolarizations (20 +/- 2% after 250 ms at +60 mV, n = 32), and was incomplete in 5 s (69 +/- 3%, n = 14). This slow inactivation appeared to be a genuine gating process and not due to K+ accumulation, because it was present regardless of the size of the current and was observed even with 140 mM external K+ concentration. Slow inactivation had a biexponential time course with largely voltage-independent time constants of approximately 240 and 2,700 ms between -10 and +60 mV. The voltage dependence of slow inactivation overlapped with that of activation: Eh = -25 +/- 4 mV and k = 3.7 +/- 0.7 (n = 14). The fully activated current-voltage relationship displayed outward rectification in 4 mM external K+ concentration, but was more linear at higher external K+ concentrations, changes that could be explained in part on the basis of constant field (Goldman-Hodgkin-Katz) rectification. Activation and inactivation kinetics displayed a marked temperature dependence, resulting in faster activation and enhanced inactivation at higher temperature. The current was sensitive to low concentrations of 4- aminopyridine, but relatively insensitive to external TEA and to high concentrations of dendrotoxin. The expressed current did not resemble either the rapid or the slow components of delayed rectification described in guinea pig myocytes. However, this channel has many similarities to the rapidly activating delayed rectifying currents described in adult rat atrial and neonatal canine epicardial myocytes.(ABSTRACT TRUNCATED AT 400 WORDS)
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S. W. Yeola and D. J. Snyders Electrophysiological and pharmacological correspondence between Kv4.2 current and rat cardiac transient outward current Cardiovasc Res, March 1, 1997; 33(3): 540 - 547. [Abstract] [PDF]
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M. D. Drici, T. R. Burklow, V. Haridasse, R. I. Glazer, and R. L. Woosley Sex Hormones Prolong the QT Interval and Downregulate Potassium Channel Expression in the Rabbit Heart Circulation, September 15, 1996; 94(6): 1471 - 1474. [Abstract] [Full Text]
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C. Valenzuela, E. Delpon, L. Franqueza, P. Gay, O. Perez, J. Tamargo, and D. J. Snyders Class III Antiarrhythmic Effects of Zatebradine: Time-, State-, Use-, and Voltage-Dependent Block of hKv1.5 Channels Circulation, August 1, 1996; 94(3): 562 - 570. [Abstract] [Full Text]
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S. W. Yeola, T. C. Rich, V. N. Uebele, M. M. Tamkun, and D. J. Snyders Molecular Analysis of a Binding Site for Quinidine in a Human Cardiac Delayed Rectifier K+ Channel : Role of S6 in Antiarrhythmic Drug Binding Circ. Res., June 1, 1996; 78(6): 1105 - 1114. [Abstract] [Full Text]
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G.-R. Li, J. Feng, Z. Wang, B. Fermini, and S. Nattel Adrenergic Modulation of Ultrarapid Delayed Rectifier K+ Current in Human Atrial Myocytes Circ. Res., May 1, 1996; 78(5): 903 - 915. [Abstract] [Full Text]
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V. N. Uebele, S. K. England, A. Chaudhary, M. M. Tamkun, and D. J. Snyders Functional Differences in Kv1.5 Currents Expressed in Mammalian Cell Lines Are Due to the Presence of Endogenous Kvbeta2.1 Subunits J. Biol. Chem., February 2, 1996; 271(5): 2406 - 2412. [Abstract] [Full Text] [PDF]
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M.P. Davies, R.H. An, P. Doevendans, S. Kubalak, K.R. Chien, and R.S. Kass Developmental Changes in Ionic Channel Activity in the Embryonic Murine Heart Circ. Res., January 1, 1996; 78(1): 15 - 25. [Abstract] [Full Text]
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S. K. England, V. N. Uebele, J. Kodali, P. B. Bennett, and M. M. Tamkun A Novel K[IMAGE] Channel beta-Subunit (hKvbeta1.3) Is Produced via Alternative mRNA Splicing J. Biol. Chem., December 1, 1995; 270(48): 28531 - 28534. |
