在分离的完整绵羊心脏浦肯野纤维中,细胞内钠离子对钠钾泵的刺激作用。
Na,K pump stimulation by intracellular Na in isolated, intact sheep cardiac Purkinje fibers.
作者信息
Sejersted O M, Wasserstrom J A, Fozzard H A
机构信息
Department of Medicine, University of Chicago, Illinois 60637.
出版信息
J Gen Physiol. 1988 Mar;91(3):445-66. doi: 10.1085/jgp.91.3.445.
Regulation of the Na,K pump in intact cells is strongly associated with the level of intracellular Na+. Experiments were carried out on intact, isolated sheep Purkinje strands at 37 degrees C. Membrane potential (Vm) was measured by an open-tipped glass electrode and intracellular Na+ activity (aNai) was calculated from the voltage difference between an Na+-selective microelectrode (ETH 227) and Vm. In some experiments, intracellular potassium (aiK) or chloride (aCli) was measured by a third separate microelectrode. Strands were loaded by Na,K pump inhibition produced by K+ removal and by increasing Na+ leak by removing Mg++ and lowering free Ca++ to 10(-8) M. Equilibrium with outside levels of Na+ was reached within 30-60 min. During sequential addition of 6 mM Mg++ and reduction of Na+ to 2.4 mM, the cells maintained a stable aNai ranging between 25 and 90 mM and Vm was -30.8 +/- 2.2 mV. The Na,K pump was reactivated with 30 mM Rb+ or K+. Vm increased over 50-60 s to -77.4 +/- 5.9 mV with Rb+ activation and to -66.0 +/- 7.7 mV with K+ activation. aiNa decreased in both cases to 0.5 +/- 0.2 mM in 5-15 min. The maximum rate of aiNa decline (maximum delta aNai/delta t) was the same with K+ and Rb+ at concentrations greater than 20 mM. The response was abolished by 10(-5) M acetylstrophantidin. Maximum delta aNai/delta t was independent of outside Na+, while aKi was negatively correlated with aNai (aKi = 88.4 - 0.86.aNai). aCli decreased by at most 3 mM during reactivation, which indicates that volume changes did not seriously affect aNai. This model provided a functional isolation of the Na,K pump, so that the relation between the pump rate (delta aNai/delta t) and aiNa could be examined. A Hill plot allowed calculation of Vmax ranging from 5.5 to 27 mM/min, which on average is equal to 25 pmol.cm-2.s-1.K 0.5 was 10.5 +/- 0.6 mM (the aNai that gives delta aNai/delta t = Vmax/2) and n equaled 1.94 +/- 0.13 (the Hill coefficient). These values were not different with K+ or Rb+ as an external activator. The number of ouabain-binding sites equaled 400 pmol.g-1, giving a maximum Na+ turnover of 300 s-1. The Na,K pump in intact Purkinje strands exhibited typical sigmoidal saturation kinetics with regard to aNai as described by the equation upsilon/Vmax = aNai(1.94)/(95.2 + aNai(1.94)). The maximum sensitivity of the Na,K pump to aiNa occurred at approximately 6 mM.
完整细胞中钠钾泵的调节与细胞内钠离子水平密切相关。实验在37℃下对完整分离的绵羊浦肯野纤维束进行。膜电位(Vm)用开口尖端玻璃电极测量,细胞内钠离子活性(aNai)由钠选择性微电极(ETH 227)与Vm之间的电压差计算得出。在一些实验中,细胞内钾离子(aiK)或氯离子(aCli)由第三个单独的微电极测量。通过去除钾离子抑制钠钾泵,并通过去除镁离子和将游离钙离子降低至10⁻⁸M增加钠离子泄漏来加载纤维束。在30 - 60分钟内达到与细胞外钠离子水平的平衡。在依次添加6 mM镁离子并将钠离子降低至2.4 mM的过程中,细胞维持稳定的aNai在25至90 mM之间,Vm为 - 30.8 ± 2.2 mV。用30 mM铷离子或钾离子使钠钾泵重新激活。用铷离子激活时,Vm在50 - 60秒内增加至 - 77.4 ± 5.9 mV,用钾离子激活时增加至 - 66.0 ± 7.7 mV。两种情况下,aNai在5 - 15分钟内均降至0.5 ± 0.2 mM。当浓度大于20 mM时,钾离子和铷离子使aNai下降的最大速率(最大ΔaNai/Δt)相同。该反应被10⁻⁵M乙酰毒毛旋花子苷消除。最大ΔaNai/Δt与细胞外钠离子无关,而aKi与aNai呈负相关(aKi = 88.4 - 0.86·aNai)。重新激活过程中,aCli最多下降3 mM,这表明体积变化并未严重影响aNai。该模型实现了钠钾泵的功能分离,从而能够研究泵速率(ΔaNai/Δt)与aNai之间的关系。通过希尔图计算得出Vmax范围为5.5至27 mM/分钟,平均等于25 pmol·cm⁻²·s⁻¹。K0.5为10.5 ± 0.6 mM(使ΔaNai/Δt = Vmax/2的aNai),n等于1.94 ± 0.13(希尔系数)。以钾离子或铷离子作为外部激活剂时,这些值并无差异。哇巴因结合位点数量等于400 pmol·g⁻¹,最大钠离子周转率为300 s⁻¹。完整浦肯野纤维束中的钠钾泵对aNai表现出典型的S形饱和动力学,如方程υ/Vmax = aNai(1.94)/(95.2 + aNai(1.94))所述。钠钾泵对aNai的最大敏感性出现在约6 mM处。
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