Yang T, Wathen M S, Felipe A, Tamkun M M, Snyders D J, Roden D M
Department of Pharmacology, Vanderbilt University School of Medicine, Nashville, Tenn. 37232-6602.
Circ Res. 1994 Nov;75(5):870-8. doi: 10.1161/01.res.75.5.870.
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)
源自转基因小鼠的心房肿瘤心肌细胞(AT-1细胞)维持着分化良好的心脏生化和组织学表型。此外,它们在培养中能自发搏动,并表现出长动作电位,其复极化类似于在天然哺乳动物心肌细胞中观察到的情况。在本研究中,我们鉴定了AT-1细胞中的主要去极化激活外向电流;此外,通过从AT-1 cDNA文库克隆或Northern杂交来确定编码外向传导离子通道的mRNA的存在。在K+通道亚型中,Kv2.1、minK和Kv1.4在肿瘤及培养1天时易于检测到。14天后它们的丰度保持相对稳定(变化两倍或更小)。AT-1细胞中的主要外向电流是一种延迟整流器,表现出明显的内向整流,快速激活(例如,在+20 mV时为182±27毫秒[平均值±标准误],n = 12),呈现双指数失活动力学,并且对甲磺酰胺类药物多非利特极其敏感(IC50,12 nmol/L)。这些特征将该电流鉴定为IKr,一种仅在心脏细胞中观察到的延迟整流器。AT-1细胞中的IKr表现出缓慢失活:多非利特敏感的失活尾电流在1秒脉冲后比5秒脉冲后更大。当IKr被≥0.5 μmol/L多非利特阻断时,通常记录到与时间无关的电流(65个实验中的50个);偶尔观察到快速失活(65个中的6个)或缓慢失活(65个中的9个)的外向电流。我们得出结论,AT-1细胞表达编码心脏K+通道的mRNA并表现出心脏电生理表型。(摘要截断于250字)
