钠泵和离子梯度对软体动物神经元膜电位的作用。
Contributions of the sodium pump and ionic gradients to the membrane potential of a molluscan neurone.
作者信息
Gorman A L, Marmor M F
出版信息
J Physiol. 1970 Nov;210(4):897-917. doi: 10.1113/jphysiol.1970.sp009248.
Abstract
- The membrane potential of the gastro-oesophageal giant neurone of the marine mollusc, Anisodoris nobilis, was examined during changes of temperature and of the ionic medium.2. The response of the membrane potential to rapid changes in the external K concentration was prompt, stable, and reversible up to 200 mM-K, and was independent of the external Cl concentration.3. Warming the cell produced a prompt hyperpolarization that was approximately 10 times greater than predicted by the Nernst or constant field equations. Electrogenic activity of the Na-K exchange pump was shown to be responsible for this effect.4. At temperatures below 5 degrees C, the relationship between the membrane potential and the external K concentration could be predicted by a constant field equation.5. At temperatures above 5 degrees C, the membrane potential could not be predicted by the constant field equation except after inhibition of the electrogenic Na pump with ouabain or the reduction of internal Na.6. Inhibition of the electrogenic Na pump by low external K concentrations was dependent upon the external Na concentration.7. It is concluded that the membrane potential is the sum of ionic and metabolic components, and that the behaviour of the ionic component can be predicted by a constant field type equation.
摘要
在温度和离子介质发生变化时,对海洋软体动物高贵海兔的胃食管巨神经元的膜电位进行了检测。
膜电位对外界钾离子浓度快速变化的响应迅速、稳定,在钾离子浓度高达200 mM时是可逆的,且与外界氯离子浓度无关。
细胞升温会产生迅速的超极化,其幅度比能斯特方程或恒定场方程预测的大约大10倍。钠钾交换泵的生电活性被证明是造成这种效应的原因。
在温度低于5摄氏度时,膜电位与外界钾离子浓度之间的关系可以用恒定场方程来预测。
在温度高于�摄氏度时,除非用哇巴因抑制生电钠泵或降低细胞内钠离子浓度,否则恒定场方程无法预测膜电位。
低外界钾离子浓度对生电钠泵的抑制作用取决于外界钠离子浓度。
得出的结论是,膜电位是离子成分和代谢成分的总和,并且离子成分的行为可以用恒定场类型的方程来预测。
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本文引用的文献
1
POTENTIAL, IMPEDANCE, AND RECTIFICATION IN MEMBRANES.膜的电位、阻抗和整流。
J Gen Physiol. 1943 Sep 20;27(1):37-60. doi: 10.1085/jgp.27.1.37.
2
The effect of sodium ions on the electrical activity of giant axon of the squid.钠离子对鱿鱼巨大轴突电活动的影响。
J Physiol. 1949 Mar 1;108(1):37-77. doi: 10.1113/jphysiol.1949.sp004310.
3
Some properties of the external activation site of the sodium pump in crab nerve.蟹神经中钠泵外部激活位点的一些特性
J Physiol. 1966 Jul;185(2):270-97. doi: 10.1113/jphysiol.1966.sp007987.
4
Membrane potential changes during sodium transport in frog sartorius muscle.蛙缝匠肌钠转运过程中的膜电位变化
Nature. 1962 Mar 10;193:986-7. doi: 10.1038/193986a0.
5
The effect of external sodium concentration on the sodium fluxes in frog skeletal muscle.外部钠浓度对青蛙骨骼肌钠通量的影响。
J Physiol. 1959 Oct;147(3):591-625. doi: 10.1113/jphysiol.1959.sp006264.
6
The influence of potassium and chloride ions on the membrane potential of single muscle fibres.钾离子和氯离子对单根肌纤维膜电位的影响。
J Physiol. 1959 Oct;148(1):127-60. doi: 10.1113/jphysiol.1959.sp006278.
7
Active transport of cations in giant axons from Sepia and Loligo.乌贼和枪乌贼巨大轴突中阳离子的主动运输。
J Physiol. 1955 Apr 28;128(1):28-60. doi: 10.1113/jphysiol.1955.sp005290.
8
AN ELECTROGENIC SODIUM PUMP IN SNAIL NERVE CELLS.蜗牛神经细胞中的一种生电钠泵。
Comp Biochem Physiol. 1965 Jan;14:167-83. doi: 10.1016/0010-406x(65)90017-4.
9
SODIUM PUMP: ITS ELECTRICAL EFFECTS IN SKELETAL MUSCLE.钠泵:其在骨骼肌中的电效应
Science. 1965 Mar 19;147(3664):1442-3. doi: 10.1126/science.147.3664.1442.
10
THE ACTION OF CARDIAC GLYCOSIDES ON ION MOVEMENTS.强心苷对离子运动的作用。
Pharmacol Rev. 1964 Dec;16:381-407.
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