分离的人心房肌细胞中超极化激活内向电流的特性
Characterization of the hyperpolarization-activated inward current in isolated human atrial myocytes.
作者信息
Hoppe U C, Beuckelmann D J
机构信息
Department of Medicine III, University of Cologne, Germany.
出版信息
Cardiovasc Res. 1998 Jun;38(3):788-801. doi: 10.1016/s0008-6363(98)00047-9.
OBJECTIVE
The hyperpolarization-activated inward current (I(f)) has been discussed to contribute to arrhythmias in rat hypertrophied and human failing ventricular myocardium. Cat atrial myocytes were found to exhibit variable size of I(f). In the present study, we evaluate characteristics of I(f) in human atrial myocardium and investigate if human atria might exhibit any electrophysiological heterogeneity in the diastolic voltage range.
METHODS AND RESULTS
The whole-cell patch-clamp technique was used to record I(f) in isolated myocytes from 96 human right atrial appendages. I(f) was observed in 95% (ruptured-patch; 141/146) to 100% (perforated-patch; 18/18) of myocytes showing typical current properties, i.e. time- and voltage-dependence, block by [Cs+]o, permeability for K+, Na+ and Li+, and current increase with raising [K+]o. Using the perforated-patch technique Boltzmann distributions yielded an activation threshold of -60 to -70 mV and half maximal activation at -89.3 +/- 0.7 mV (n = 18). Isoproterenol (10(-6) mol/l) shifted I(f) activation by +7 mV (7/7) using the perforated-patch technique, but only inconsistently shifted I(f) activation using the ruptured-patch method (6/21). Based on the relative current size of I(f) and IK1 three cell types could be distinguished (n = 26). In myocytes with a prominent I(f), I(f) density was found to be larger (in [K+]o 25 mmol/l at -80 mV: -0.78 +/- 0.23 pApF-1; n = 7) than in cells with predominant IK1 (in [K+]o 25 mmol/l at -80 mV: -0.02 +/- 0.01 pApF-1; n = 4) (P < 0.05).
CONCLUSIONS
I(f) is present in most human atrial myocytes. Many current properties are similar to those described for I(f) in mammalian pacemaker cells. The relative current size of I(f) and IK1 were found to be variable in different myocytes. Whether I(f) may favor spontaneous diastolic depolarization in individual human atrial myocytes exhibiting predominantly I(f) in vivo remains to be defined, as current size is very small under physiological [K+]o.
目的
超极化激活内向电流(I(f))被认为与大鼠肥厚心肌及人类衰竭心室肌的心律失常有关。已发现猫心房肌细胞的I(f)大小存在差异。在本研究中,我们评估人类心房肌中I(f)的特性,并研究人类心房在舒张电压范围内是否存在任何电生理异质性。
方法与结果
采用全细胞膜片钳技术记录来自96个人类右心耳分离的心肌细胞中的I(f)。在显示典型电流特性(即时间和电压依赖性、被细胞外[Cs+]阻断、对K+、Na+和Li+的通透性以及随着细胞外[K+]升高电流增加)的心肌细胞中,95%(破膜片;141/146)至100%(穿孔片;18/18)观察到I(f)。使用穿孔片技术,玻尔兹曼分布得出激活阈值为-60至-70 mV,半最大激活电压为-89.3±0.7 mV(n = 18)。异丙肾上腺素(10(-6) mol/l)使用穿孔片技术使I(f)激活向正移7 mV(7/7),但使用破膜片方法时I(f)激活仅出现不一致的移位(6/21)。根据I(f)和IK1的相对电流大小可区分出三种细胞类型(n = 26)。在I(f)突出的心肌细胞中,发现I(f)密度更大(在细胞外[K+]为25 mmol/l、-80 mV时:-0.78±0.23 pApF-1;n = 7),高于以IK1为主的细胞(在细胞外[K+]为25 mmol/l、-80 mV时:-0.02±0.01 pApF-1;n = 4)(P < 0.05)。
结论
I(f)存在于大多数人类心房肌细胞中。许多电流特性与哺乳动物起搏细胞中描述的I(f)相似。发现I(f)和IK1的相对电流大小在不同心肌细胞中存在差异。在体内主要表现为I(f)的个体人类心房肌细胞中,I(f)是否有利于自发舒张期去极化仍有待确定,因为在生理细胞外[K+]条件下电流大小非常小。
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