1. Single cells were isolated from the sinus node region of rabbits (2 days old to adult) to study the age-dependent contribution of the sodium current (iNa) to pacemaker activity. 2. Experiments were conducted in 50 mM Na(+)-Ca(2+)-free solution. All newborn cells (2-19 days) exhibited a TTX-sensitive, Mn(2+)-insensitive fast inward Na+ current (peak current density 115.5 +/- 11.9 pA pF-1 at 0 mV). Fifty per cent of young cells (20-40 days) possessed the current, but only one in ten adult cells. Current density decreased with development independently of cell capacitance. 3. Newborn cells exhibited a noticeable window current. With development, the position of the activation curve was shifted in the positive direction, while the inactivation was unaltered, resulting in reduced overlap of the two curves and hence less window current. 4. In newborn cells, 3 microM TTX significantly reduced all measured parameters of spontaneous action potentials, slowing rate by 63%. In contrast, there was no significant effect of TTX on rate or most of the same parameters in adult cells. 5. These results indicate that cells of the sinus node region exhibit a substantial TTX-sensitive current at birth. With development, both the density and frequency of occurrence of this current within the sinus node decrease, as does its contribution to automaticity.
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机译:1.从兔(成年2天大)的窦房结区域分离单细胞,研究钠电流(iNa)对起搏器活动的年龄依赖性贡献。 2.实验在不含50 mM Na(+)-Ca(2+)的溶液中进行。所有新生细胞(2-19天)均表现出TTX敏感,Mn(2+)不敏感的快速内向Na +电流(0 mV时的峰值电流密度115.5 +/- 11.9 pA pF-1)。 50%的年轻细胞(20-40天)拥有目前的细胞,但只有十分之一的成年细胞。电流密度随显影而降低,与电池电容无关。 3.新生细胞表现出明显的窗口电流。随着显影,激活曲线的位置向正方向移动,而灭活未改变,导致两条曲线的重叠减少,因此窗口电流较小。 4.在新生细胞中,3 microM TTX显着降低了所有测量的自发动作电位参数,使速率降低了63%。相反,TTX对成年细胞的速率或大多数相同参数没有显着影响。 5.这些结果表明,窦房结区域的细胞在出生时表现出明显的TTX敏感电流。随着发展,窦房结内该电流的密度和发生频率均降低,其对自动性的贡献也降低。
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