Stephenson E W
J Gen Physiol. 1969 Jul;54(1):53-75. doi: 10.1085/jgp.54.1.53.
Sodium efflux from rings of frog stomach muscle was measured at 5 degrees and 15 degrees C in three different steady states. After incubation in normal, K-free, or ouabain (10(-4)M) solutions, intracellular cations stabilized at markedly differing levels. At 5 degrees C, inhibition of Na extrusion was shown in the rate coefficients for (22)Na efflux, which were slightly smaller in K-free than in normal solutions, and much smaller in ouabain. Due to the intracellular Na concentration differences, total Na efflux was similar in K-free and ouabain solutions, and only (1/5) as large in normal solution. At 15 degrees C, normal total Na flux was only 1/7;-1/10 inhibitors, and may be underestimated. The total flux differences may involve dependence of the Na pump and Na permeation on internal Na concentration. The Q(10) of the steady-state fluxes was 3.7 in ouabain, 2.8 in K-free solution, and 1.9 in normal solution. The high temperature dependence of influx as well as efflux suggests transport mechanisms other than simple diffusion. Sodium turnover in the cell water was 46-66 mM/hr in inhibitors at 15 degrees C, and a high rate of Na extrusion in normal muscle is suggested. However, cell volume:surface ratio is only 1.6 micro and all estimates of Na flux were under 3 pmoles/cm(2) per sec, indicating low Na permeability.
在5摄氏度和15摄氏度下,于三种不同的稳定状态下测量了蛙胃肌环中的钠外流。在正常、无钾或哇巴因(10⁻⁴M)溶液中孵育后,细胞内阳离子稳定在明显不同的水平。在5摄氏度时,无钾溶液中(²²)Na外流的速率系数显示出钠外流的抑制,其略小于正常溶液,而在哇巴因溶液中则小得多。由于细胞内钠浓度的差异,无钾和哇巴因溶液中的总钠外流相似,而在正常溶液中仅为其(1/5)。在15摄氏度时,正常的总钠通量仅为抑制剂的1/7至1/10,可能被低估了。总通量差异可能涉及钠泵和钠渗透对细胞内钠浓度的依赖性。在哇巴因中稳态通量的Q₁₀为3.7,在无钾溶液中为2.8,在正常溶液中为1.9。流入和流出对高温的依赖性表明存在除简单扩散之外的转运机制。在15摄氏度时,抑制剂中细胞内水的钠周转率为46 - 66 mM/小时,提示正常肌肉中钠外流速率较高。然而,细胞体积与表面积之比仅为1.6微米,所有钠通量估计值均低于3皮摩尔/平方厘米每秒,表明钠通透性较低。
