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2
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Br J Pharmacol. 1980 Dec;70(4):577-92. doi: 10.1111/j.1476-5381.1980.tb09777.x.
3
The role of sodium influx mediated by nicotinic receptors as an initial event in trans-synaptic induction of tyrosine hydroxylase in adrenergic neurons.烟碱样受体介导的钠内流作为肾上腺素能神经元中酪氨酸羟化酶跨突触诱导初始事件的作用。
Naunyn Schmiedebergs Arch Pharmacol. 1980 Sep;313(3):199-203. doi: 10.1007/BF00505734.
4
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本文引用的文献

1
Transport of ions across cellular membranes.离子跨细胞膜的转运。
Physiol Rev. 1949 Apr;29(2):127-55. doi: 10.1152/physrev.1949.29.2.127.
2
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.
3
Temperature-dependence of activation and inhibition of rat-brain adenosine triphosphatase activated by sodium and potassium ions.钠离子和钾离子激活的大鼠脑三磷酸腺苷酶的激活和抑制的温度依赖性。
Biochem J. 1966 Sep;100(3):762-7. doi: 10.1042/bj1000762.
4
The resting exchange of radioactive potassium in crab nerve.蟹神经中放射性钾的静息交换
J Physiol. 1951 Mar;113(1):73-98. doi: 10.1113/jphysiol.1951.sp004557.
5
A comparison of methods for measuring efflux of labelled potassium from contracting rabbit atria.测量收缩兔心房中标记钾外流的方法比较。
J Physiol. 1960 Jul;152(2):354-66. doi: 10.1113/jphysiol.1960.sp006492.
6
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.
7
MOVEMENTS OF RADIOACTIVE SODIUM IN CEREBRAL-CORTEX SLICES IN RESPONSE TO ELECTRICAL STIMULATION.大脑皮质切片中放射性钠在电刺激下的运动
Biochem J. 1965 May;95(2):301-10. doi: 10.1042/bj0950301.
8
ION FLUXES IN THE CENTRAL NERVOUS SYSTEM.中枢神经系统中的离子通量
Int Rev Neurobiol. 1963;5:183-242. doi: 10.1016/s0074-7742(08)60596-6.
9
The dependence of the respiration of brain cortex on active cation transport.大脑皮层呼吸对主动阳离子转运的依赖性。
Biochem J. 1962 Jan;82(1):205-12. doi: 10.1042/bj0820205.
10
Metabolism of glucose and oxygen in a mammalian sympathetic ganglion at reduced temperature and varied pH.低温及不同pH值条件下哺乳动物交感神经节中葡萄糖和氧气的代谢
J Neurochem. 1958 Oct;3(1):72-88. doi: 10.1111/j.1471-4159.1958.tb12611.x.

标记钠离子在离体大鼠颈上神经节中的运动。

Movements of labelled sodium ions in isolated rat superior cervical ganglia.

作者信息

Brown D A, Scholfield C N

出版信息

J Physiol. 1974 Oct;242(2):321-51. doi: 10.1113/jphysiol.1974.sp010710.

DOI:10.1113/jphysiol.1974.sp010710
PMID:4455816
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1330670/
Abstract
  1. Isolated rat superior cervical ganglia were incubated in Krebs solution containing (24)Na and carbachol for 4 min at 25 degrees C. They were then washed at 3 degrees C for 15 min to remove extracellular (24)Na and the efflux of residual intracellular (24)Na stimulated by warming to 25 degrees C.2. During the 15 min wash at 3 degrees C desaturation curves became exponential with a rate constant of 0.012 +/- 0.001 min(-1) (n = 24). This was assumed to represent loss of intracellular (24)Na, and initial uptake of (24)Na was calculated therefrom by back-extrapolation to zero wash-time. After 4 min in (24)Na + 180 muM carbachol intracellular [(24)Na] so calculated was 61.6 +/- 3.1 mM (n = 18), representing 83% labelling of intracellular Na. In the absence of carbachol intracellular [(24)Na] was 10.0 +/- 0.5 mM, representing 49% labelling. Extracellular Na was labelled by > 90% after 4 min in (24)Na. The apparent rate constant for washout of extracellular (24)Na was 0.6 min(-1) at 3 degrees C and 0.95 min(-1) at 25 degrees C.3. The loss of the residual intracellular (24)Na during temperature stimulation was interpreted quantitatively in terms of an exponential decline of the bulk of intracellular (24)Na with an extrusion rate constant of 0.39 +/- 0.1 min(-1) (n = 18), efflux being delayed by passage through the extracellular space with an effective rate constant of 0.8-1.2 min(-1).4. The peak rate constant (k(C)) for the desaturation curve at 25 degrees C was 0.35 +/- 0.01 min(-1). An Arrhenius plot of log k(C)/T degrees K(-1) yielded a two-stage linear regression with a transition at 20 degrees C. Activation energies of 8 and 31 kcal. mole(-1) were calculated above and below this transition respectively.5. Omission of K from the 25 degrees C temperature-stimulating solution reduced k(C) by 62%. The K-sensitive component of extrusion rate constant was a hyperbolic function of K with half-saturation at 5.6 mM-K and maximum k(C) of 0.58 min(-1).6. Cyanide (2 mM), 2,4-dinitrophenol (1 mM) and ouabain (1.4 mM) reduced k(C) by 50-90%. The half-maximally inhibiting concentration of ouabain was about 60 muM.7. Substitution of sucrose, Li or choline for external Na did not reduce the extrusion rate of (24)Na in either 6 mM-K or 0 mM-K. Li stimulated (24)Na extrusion in Na-free, K-free solution.8. The properties of the ganglionic Na pump deduced from rates of temperature-stimulated (24)Na extrusion accord with the view that the ganglion hyperpolarization observed after Na loading by exposure to nicotinic depolarizing agents results from electrogenic Na extrusion. A comparable hyperpolarization is observed after temperature stimulation following Na loading.
摘要

  1. 将分离的大鼠颈上神经节在含有(^{24}Na)和卡巴胆碱的 Krebs 溶液中于(25^{\circ}C)孵育(4)分钟。然后在(3^{\circ}C)洗涤(15)分钟以去除细胞外(^{24}Na),并通过升温至(25^{\circ}C)刺激残留细胞内(^{24}Na)的流出。

  2. 在(3^{\circ}C)的(15)分钟洗涤期间,去饱和曲线变为指数形式,速率常数为(0.012\pm0.001)分钟(^{-1})((n = 24))。这被认为代表细胞内(^{24}Na)的损失,并由此通过反向外推至零洗涤时间来计算(^{24}Na)的初始摄取量。在(^{24}Na + 180)μM 卡巴胆碱中孵育(4)分钟后,如此计算的细胞内([^{24}Na])为(61.6\pm3.1)mM((n = 18)),代表细胞内钠的(83%)标记。在没有卡巴胆碱的情况下,细胞内([^{24}Na])为(10.0\pm0.5)mM,代表(49%)标记。在(^{24}Na)中孵育(4)分钟后,细胞外钠的标记率> (90%)。细胞外(^{24}Na)洗脱的表观速率常数在(3^{\circ}C)时为(0.6)分钟(^{-1}),在(25^{\circ}C)时为(0.95)分钟(^{-1})。

  3. 根据细胞内大部分(^{24}Na)的指数下降,以(0.39\pm0.1)分钟(^{-1})的挤出速率常数((n = 18))对温度刺激期间残留细胞内(^{24}Na)的损失进行了定量解释,流出通过细胞外空间延迟,有效速率常数为(0.8 - 1.2)分钟(^{-1})。

  4. (25^{\circ}C)下去饱和曲线的峰值速率常数((k_C))为(0.35\pm0.01)分钟(^{-1})。(\log k_C/T^{\circ}K^{-1})的阿伦尼乌斯图产生了一个两阶段线性回归,在(20^{\circ}C)处有一个转变。分别计算出高于和低于该转变的活化能为(8)和(31)千卡·摩尔(^{-1})。

  5. 从(25^{\circ}C)温度刺激溶液中省略钾使(k_C)降低了(62%)。挤出速率常数对钾敏感的成分是([K]_e)的双曲线函数(([K]_e)为细胞外钾浓度),在(5.6)mM - ([K]_e)时半饱和,最大(k_C)为(l)。

  6. 氰化物((2)mM)、2,4 - 二硝基苯酚((1)mM)和哇巴因((1.4)mM)使(k_C)降低了(50 - 90%)。哇巴因的半最大抑制浓度约为(60)μM。

  7. 用蔗糖、锂或胆碱替代外部钠在(6)mM - ([K]_e)或(0)mM - ([K]_e)中均未降低(^{ }24Na)的挤出速率。锂在无钠、无钾溶液中刺激(^{24}Na)挤出。

  8. 从温度刺激的(^{24}Na)挤出速率推导的神经节钠泵特性与以下观点一致,即暴露于烟碱去极化剂使钠负荷后观察到的神经节超极化是由电生性钠挤出引起的。在钠负荷后温度刺激后观察到类似的超极化。 58 分钟(^{-1})。

  9. 氰化物((2)mM)、2,4 - 二硝基苯酚((1)mM)和哇巴因((1.4)mM)使(k_C)降低了(50 - 90%)。哇巴因的半最大抑制浓度约为(60)μM。

  10. 用蔗糖、锂或胆碱替代外部钠在(6)mM - ([K]_e)或(0)mM - ([K]_e)中均未降低(^{24}Na)的挤出速率。锂在无钠、无钾溶液中刺激(^{24}Na)挤出。

  11. 从温度刺激的(^{24}Na)挤出速率推导的神经节钠泵特性与以下观点一致,即暴露于烟碱去极化剂使钠负荷后观察到的神经节超极化是由电生性钠挤出引起的。在钠负荷后温度刺激后观察到类似的超极化。