兔窦房结细胞电活动与细胞大小之间的相关性
Correlation between electrical activity and the size of rabbit sino-atrial node cells.
作者信息
Honjo H, Boyett M R, Kodama I, Toyama J
机构信息
Department of Circulation, Nagoya University, Japan.
出版信息
J Physiol. 1996 Nov 1;496 ( Pt 3)(Pt 3):795-808. doi: 10.1113/jphysiol.1996.sp021728.
Abstract
- Single cells were isolated from rabbit sino-atrial (SA) node by enzymatic dissociation. Spontaneous action potentials and membrane currents were recorded using the whole-cell patch clamp technique to study the relationship between electrical activity and the size of the cells. 2. The size of SA node cells was estimated by measuring the cell capacitance. The cell capacitance of SA node cells ranged from 21.8 to 61.5 pF with a mean +/- S.E.M. of 38.2 +/- 1.3 pF (n = 61). 3. The action potential amplitude, maximum diastolic potential, take-off potential and action potential upstroke velocity were greater in larger cells. The rate of diastolic depolarization was greater and the intrinsic spontaneous activity was faster in larger cells. 4. The density of hyperpolarization-activated current (i(f)) was greater in larger cells, whereas the density of L-type calcium current was not correlated with the size of SA node cells. 5. TTX-sensitive sodium current (iNa) was absent in small cells with a capacitance of less than approximately 25 pF, and the density of iNa was greater in larger cells. 6. The greater density of iNa in larger cells may explain the higher upstroke velocity of the action potential in large cells, and the greater density of i(f) and iNa could be responsible for the faster intrinsic spontaneous activity of large cells. These results suggest that the SA node consists of electrophysiologically heterogeneous pacemaker cells with different electrical membrane properties.
摘要
- 通过酶解从兔窦房(SA)结分离出单个细胞。使用全细胞膜片钳技术记录自发动作电位和膜电流,以研究电活动与细胞大小之间的关系。2. 通过测量细胞电容来估计SA结细胞的大小。SA结细胞的细胞电容范围为21.8至61.5 pF,平均±标准误为38.2±1.3 pF(n = 61)。3. 较大细胞的动作电位幅度、最大舒张电位、起始电位和动作电位上升速度更大。较大细胞的舒张期去极化速率更大,固有自发活动更快。4. 较大细胞中超极化激活电流(i(f))的密度更大,而L型钙电流的密度与SA结细胞的大小无关。5. 电容小于约25 pF的小细胞中不存在TTX敏感钠电流(iNa),较大细胞中iNa的密度更大。6. 较大细胞中iNa密度更高可能解释了大细胞中动作电位更高的上升速度,而i(f)和iNa密度更大可能是大细胞固有自发活动更快的原因。这些结果表明,SA结由具有不同电膜特性的电生理异质性起搏细胞组成。
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