Low-Affinity Polyamine Block of IK1 Facilitating the Cardiac Repolarization
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概要
- 論文の詳細を見る
The inward rectifier K<SUP>+</SUP> currents play an important role in cardiac repolarization. We have studied the blockage of Kir2 channels by polyamines and Mg<SUP>2+</SUP> in detail to clarify the precise mechanisms that determine the voltage- and time-dependences of the cardiac strong inward rectifier K<SUP>+</SUP> current, <I>I</I><SUB>K1</SUB>, during repolarization. Our studies suggested that a large portion of the time-independent component of <I>I</I><SUB>K1</SUB>, which flows at membrane potentials near the resting potential, is carried by a small (7–10%) conductance susceptible only to the low-affinity mode of blockage by intracellular polyamines. An "<I>I</I><SUB>K1</SUB> transient" caused by the relief of the Mg<SUP>2+</SUP> block of <I>I</I><SUB>K1</SUB> during early phase 3 appeared to flow through the conductance susceptible to the high-affinity mode of the polyamine block. The fractional conductances showing distinct sensitivities to the polyamine blockage varied in the presence of different concentrations of polyamines, suggesting that <I>I</I><SUB>K1</SUB> is modulated by intracellular polyamines in a complicated manner. The D172N mutation in the transmembrane pore region of Kir2.1, which has been proposed to increase <I>I</I><SUB>K1</SUB>, thereby causing the short QT syndrome, made almost all of the channel conductance susceptible only to the low-affinity block. Our study suggests that modulation of the fractions of <I>I</I><SUB>K1</SUB> exhibiting distinct sensitivities to the polyamine/Mg<SUP>2+</SUP> block may be a potential pharmacological target for treating abnormal cardiac repolarization.
- 日本不整脈学会の論文
著者
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Ishihara Keiko
Department Of Cardiovascular Diseases Medical Research Institute
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Ishihara Keiko
Department of Physiology, Faculty of Medicine, Saga University
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