蜗牛神经元离子主动转运过程中的电位依赖性膜电流。
Potential-dependent membrane current during the active transport of ions in snail neurones.
作者信息
Kostyuk P G, Krishtal O A, Pidoplichko V I
出版信息
J Physiol. 1972 Oct;226(2):373-92. doi: 10.1113/jphysiol.1972.sp009989.
Abstract
- The membrane current caused by the iontophoretic injection of sodium into giant neurones of the snail Helix pomatia was investigated under a long lasting voltage clamp. The inhibition of this current by ouabain (10(-4) M) and by cooling to + 7 degrees C confirmed its link with the active transport of ions. Therefore this current is called the pump current.2. Over the range of membrane potential -40 to -100 mV the changes in the steady current-voltage curves caused by the pump current development were investigated. The pump current was found to be potential-dependent. It decreased with increasing hyperpolarization of the neurone.3. With large hyperpolarizations the current-voltage curves obtained before the sodium injection and after eliciting the pump current coincided with each other. An increase in the membrane conductance was observed over the range of membrane potential corresponding to the pump current display.4. The applied sodium injections did not cause any marked changes in the passive permeability of the membrane. This fact made it possible to measure the charge transferred across the membrane during operation of the pump current. Unlike previous data, the ratio of this value to the charge used to inject sodium into the neurone appeared to be a variable.5. When the preparation was cooled to + 11 degrees C, and also during the first few minutes after the application of a potassium-free solution, both the pump current and the membrane potential at which it disappeared could increase.6. The pump current measurements during a number of transitions from one fixed level of the membrane potential to another showed that the current did not depend upon the potential at which it developed before each transition.7. The data presented allow the suggestion that the potential dependence of the pump current is determined by the changes in the rate of active transport of potassium, while the rate of active transport of sodium remains constant.
摘要
在持续的电压钳制条件下,研究了向蜗牛玛瑙螺的巨型神经元中离子电泳注入钠所引起的膜电流。哇巴因(10⁻⁴ M)和冷却至 +7℃对该电流的抑制作用证实了其与离子主动转运的联系。因此,这种电流被称为泵电流。
在膜电位 -40 至 -100 mV 的范围内,研究了由泵电流产生所引起的稳态电流 - 电压曲线的变化。发现泵电流与电位有关。它随着神经元超极化程度的增加而减小。
在大的超极化情况下,注入钠之前和引发泵电流之后获得的电流 - 电压曲线相互重合。在与泵电流显示相对应的膜电位范围内观察到膜电导增加。
所施加的钠注入并未引起膜被动通透性的任何明显变化。这一事实使得能够测量泵电流运行期间跨膜转移的电荷。与先前的数据不同,该值与用于向神经元注入钠的电荷量之比似乎是可变的。
当标本冷却至 +11℃时,以及在应用无钾溶液后的最初几分钟内,泵电流及其消失时的膜电位都可能增加。
在从一个固定的膜电位水平到另一个水平的多次转变过程中对泵电流的测量表明,该电流并不取决于每次转变之前其产生时的电位。
所呈现的数据表明,泵电流的电位依赖性由钾主动转运速率的变化决定,而钠的主动转运速率保持恒定。
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