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美国卫生研究院文献>The Journal of Physiology
>The electrogenic sodium pump in guinea-pig ventricular muscle: inhibition of pump current by cardiac glycosides
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The electrogenic sodium pump in guinea-pig ventricular muscle: inhibition of pump current by cardiac glycosides
1. The inhibition of the electrogenic sodium pump in guinea-pig ventricular muscle by cardiac glycosides was studied with a voltage-clamp technique.2. Superfusion of the preparation with dihydro-ouabain (DHO) produced a reversible depolarization of up to 7 mV. When the membrane potential was clamped to a constant value near the resting potential application of DHO produced a corresponding current change in the inward direction which reached a steady state in less than 1 min.3. The drug-induced current change (ID) was found to be the result of a parallel shift of the current—voltage relation. The contributions of a change in extracellular K or intracellular Na to the measured ID were shown to be very small. From these findings and the results summarized below it was concluded that ID represents the blockage of the electrogenic pump current by DHO and that it is proportional to the number of drug molecules bound to the Na—K-ATPase in the intact cell.4. The dependence of ID on the concentration of DHO applied (5 × 10-6-8 × 10-4 M) was found to be consistent with the predictions of the law of mass action for reversible one-to-one binding of the drug to the Na—K pump under equilibrium conditions. From a Scatchard-type plot the equilibrium dissociation constant (KD) of DHO was determined to be 4·6 (±2·3) × 10-5 M.5. The steady-state pump current in the resting preparation was calculated to be 0·81±0·26 μA/cm2. It contributed 6·4±0·9 mV to the resting potential in Tyrode solution containing 3 mM-K.6. In the smallest preparations used the measured time course of the onset and decay of ID agreed with the chemical kinetics of binding and unbinding calculated for various DHO concentrations. The rate constant of unbinding (k2) was found to be 3·4 (±0·7) × 10-2 S-1 and the average rate constant of binding (k1) was 7·4 × 102 M-1 S-1.7. By comparing the effects of ouabain and DHO in the same preparation the following estimates of the chemical constants of ouabain binding to the Na—K pump were obtained: KD ≃ 1·5 × 10-6 M; k1 ≃ 4 × 103 M-1 S-1; k2 ≃ 6 × 10-3 S-1.8. An analysis of the transmembrane movements of Na and K in the steady state showed that the measured pump current density is consistent with a counter-transport of 3 Na and 2 K ions.
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机译:1.采用电压钳技术研究了强心苷对豚鼠心室肌电钠泵的抑制作用。2。用二氢-哇巴因(DHO)对该制剂进行超融合可产生高达7 mV的可逆去极化。当将膜电位钳位在静止电位附近的一个恒定值时,DHO的作用向内产生了相应的电流变化,并在不到1分钟的时间内达到了稳态3。发现药物引起的电流变化(ID)是电流-电压关系平行移动的结果。细胞外K或细胞内Na的变化对所测ID的贡献很小。从这些发现和下面总结的结果可以得出结论,ID代表DHO对电泵电流的阻断,并且ID与完整细胞中与Na-K-ATPase结合的药物分子的数量成正比。4。发现ID对所用DHO浓度(5×10 -6 -8×10 -4 M)的依赖性与对定律的预测一致平衡作用下药物与Na-K泵可逆一对一结合的质量作用。根据Scatchard型图,DHO的平衡解离常数(KD)确定为4·6(±2·3)×10 -5 M.5。静息制剂中的稳态泵浦电流经计算为0·81±0·26μA/ cm 2 。它在含有3 mM-K.6的Tyrode溶液中为静止电位贡献了6·4±0·9 mV。在最小的制剂中,测得的ID发生和衰减的时间过程与针对各种DHO浓度计算的结合和未结合的化学动力学一致。发现未结合的速率常数(k2)为3·4(±0·7)×10 -2 S -1 ,平均结合速率常数( k1)为7·4×10 2 M -1 S -1 .7。通过比较哇巴因和DHO在相同制剂中的作用,可以得出哇巴因与Na-K泵结合的化学常数的以下估算值:KD≃1·5×10 -6 M; k1≃4×10 3 M -1 S -1 ; k2≃6×10 -3 S -1 .8。对稳态下Na和K的跨膜运动的分析表明,测得的泵浦电流密度与3 Na和2 K离子的反向传输相一致。
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