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本文引用的文献

1
[Cardiac glycosides as inhibitors of active potassium and sodium transport by erythrocyte membrane].[强心苷作为红细胞膜主动钾和钠转运的抑制剂]
Helv Physiol Pharmacol Acta. 1953;11(4):346-54.
2
Interactions between the regulation of the intracellular pH and sodium activity of sheep cardiac Purkinje fibres.绵羊心脏浦肯野纤维细胞内pH调节与钠活性之间的相互作用。
J Physiol. 1980 Jul;304:471-88. doi: 10.1113/jphysiol.1980.sp013337.
3
Free calcium in heart muscle at rest and during contraction measured with Ca2+ -sensitive microelectrodes.使用钙离子敏感微电极测量静息和收缩期心肌中的游离钙。
Nature. 1980 Aug 28;286(5776):845-50. doi: 10.1038/286845a0.
4
Neutral carrier ion-selective microelectrodes for measurement of intracellular free calcium.用于测量细胞内游离钙的中性载体离子选择性微电极。
Biochim Biophys Acta. 1980 Jul;599(2):623-38. doi: 10.1016/0005-2736(80)90205-9.
5
The effects of rubidium ions and membrane potentials on the intracellular sodium activity of sheep Purkinje fibres.铷离子和膜电位对绵羊浦肯野纤维细胞内钠活性的影响。
J Physiol. 1981 Aug;317:189-205. doi: 10.1113/jphysiol.1981.sp013820.
6
The dependence of sodium pumping and tension on intracellular sodium activity in voltage-clamped sheep Purkinje fibres.电压钳制的绵羊浦肯野纤维中钠泵活动和张力对细胞内钠活性的依赖性。
J Physiol. 1981 Aug;317:163-87. doi: 10.1113/jphysiol.1981.sp013819.
7
Relation between intracellular Na ion activity and tension of sheep cardiac Purkinje fibers exposed to dihydro-ouabain.暴露于二氢哇巴因的绵羊心脏浦肯野纤维细胞内钠离子活性与张力之间的关系
Biophys J. 1980 Feb;29(2):315-30. doi: 10.1016/S0006-3495(80)85135-6.
8
Effect of strophanthidin on intracellular Na ion activity and twitch tension of constantly driven canine cardiac Purkinje fibers.毒毛花苷元对持续驱动的犬心脏浦肯野纤维细胞内钠离子活性和抽搐张力的影响。
Biophys J. 1982 Dec;40(3):185-98. doi: 10.1016/S0006-3495(82)84474-3.
9
The effects of low concentrations of cardiotonic steroids on membrane currents and tension in sheep Purkinje fibres.低浓度强心甾类药物对绵羊浦肯野纤维膜电流和张力的影响。
J Physiol. 1983 Jan;334:103-31. doi: 10.1113/jphysiol.1983.sp014483.
10
Phenytoin reduces calcium current in the cardiac Purkinje fiber.
Circ Res. 1983 Jul;53(1):16-23. doi: 10.1161/01.res.53.1.16.

在离体绵羊浦肯野纤维中,毒毛花苷原导致力与细胞内钠活性之间的解离。

Dissociation between force and intracellular sodium activity with strophanthidin in isolated sheep Purkinje fibres.

作者信息

Boyett M R, Hart G, Levi A J

出版信息

J Physiol. 1986 Dec;381:311-31. doi: 10.1113/jphysiol.1986.sp016329.

DOI:10.1113/jphysiol.1986.sp016329
PMID:2442352
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1182981/
Abstract
  1. We have recorded membrane potential, intracellular Na activity (aiNa) and force of contraction in sheep Purkinje fibres. Force and aiNa were recorded continuously and simultaneously during exposure to strophanthidin and its subsequent washing off. 2. Exposure to strophanthidin in concentrations of 1.5 X 10(-7), 5 X 10(-7) and 10(-5) M caused an increase in force of contraction which was temporally dissociated from the increase of aiNa. 3. There was hysteresis in the relationship between force and aiNa when the period of increasing force was compared to the period of decreasing force. When force increased on exposure to strophanthidin, the same aiNa was always associated with a higher force than when force was decreasing while washing off the drug. 4. For the same rise of aiNa higher doses of strophanthidin produced larger rises of force than lower doses. 5. When diphenylhydantoin was present in the bathing solution at concentrations of 10(-5) and 10(-4) M, the relation between force and aiNa with 10(-5) M-strophanthidin had a less steep slope, but still displayed hysteresis. 6. The relationship between force and aiNa during changes of the bathing K concentration also displayed a hysteresis, which was in the same direction as that found with strophanthidin. 7. These results are discussed in relation to proposed mechanisms of action of strophanthidin and more generally in relation to the factors linking force of contraction and aiNa. We conclude that in sheep Purkinje fibres the increase of force caused by strophanthidin is not solely due to an increase of aiNa, and that other interventions can also result in hysteresis between force and aiNa.
摘要
  1. 我们记录了绵羊浦肯野纤维的膜电位、细胞内钠活性(aiNa)和收缩力。在暴露于毒毛花苷及其随后洗脱的过程中,连续且同时记录收缩力和aiNa。2. 暴露于浓度为1.5×10⁻⁷、5×10⁻⁷和10⁻⁵ M的毒毛花苷会导致收缩力增加,这在时间上与aiNa的增加无关。3. 当比较收缩力增加期和收缩力下降期时,收缩力与aiNa之间的关系存在滞后现象。当暴露于毒毛花苷时收缩力增加,相同的aiNa总是与比洗脱药物时收缩力下降时更高的收缩力相关联。4. 对于相同的aiNa升高,较高剂量的毒毛花苷比较低剂量产生更大的收缩力升高。5. 当在浴液中存在浓度为10⁻⁵和10⁻⁴ M的苯妥英时,10⁻⁵ M毒毛花苷作用下的收缩力与aiNa之间的关系斜率较平缓,但仍表现出滞后现象。6. 在浴液钾浓度变化期间,收缩力与aiNa之间的关系也表现出滞后现象,其方向与毒毛花苷作用时相同。7. 结合毒毛花苷的作用机制以及更普遍地结合连接收缩力和aiNa的因素对这些结果进行了讨论。我们得出结论,在绵羊浦肯野纤维中,毒毛花苷引起的收缩力增加并非仅由于aiNa的增加,并且其他干预也可导致收缩力与aiNa之间出现滞后现象。