毒毛花苷诱导心脏浦肯野纤维瞬时内向电流的离子基础。
Ionic basis of transient inward current induced by strophanthidin in cardiac Purkinje fibres.
作者信息
Kass R S, Tsien R W, Weingart R
出版信息
J Physiol. 1978 Aug;281:209-26. doi: 10.1113/jphysiol.1978.sp012417.
Abstract
- Voltage clamp experiements studied the ionic basis of the strophathidin-induced transient inward current (TI) in cardiac Purkinje fibres. 2. The reversal potential of TI (Erev) was determined in the presence of various bathing solutions. Erev averaged --5 m V in the standard modified Tyrode solution (Kass, Lederer, Tsien & Weingart, 1978). Erev was displaced toward more negative potentials when the external Na concentration (NaO) was reduced by replacement of NaCl with Tris Cl, choline Cl or sucrose. 3. A sudden reduction of NaO evoked a temporary increase in TI, followed after a few minutes by a sustained diminution. The initial increase was closely paralleled by an enhanced aftercontraction and could be explained by an indirect effect of NaO on internal Ca. The subsequent fall in TI amplitude could be accounted for by the reduced driving force, E--Erev. 4. Erev was not significantly changed by replacing extracellular Cl with methyl-sulphate, or by limited variations in external Ca (2.7--16.2 mM) or external K (1--8 MM). 5. These results are consistent with an increase in membrane permeability to Na and perhaps K. 6. TI was not directly affected by TTX, which blocks excitatory Na channels, or by Cs, which inhibits inwardly rectifying K channels. TI may be distinguished from the slow inward current by its kinetic, pharmacological and ionic properties. 7. TI might be carried by a pre-existing ionic pathway such as the 'leak' channel which provides inward current underlying normal pace-maker depolarization. Another possibility is that TI reflects Ca extrusion by an electrogenic Ca--Na exchange.
摘要
- 电压钳实验研究了毒毛花苷诱导的心脏浦肯野纤维瞬时内向电流(TI)的离子基础。2. 在不同的灌流液中测定了TI的反转电位(Erev)。在标准改良台氏液中,Erev平均为-5mV(Kass、Lederer、Tsien和Weingart,1978)。当用三羟甲基氨基甲烷氯化物、氯化胆碱或蔗糖取代氯化钠从而降低细胞外钠浓度(NaO)时,Erev向更负的电位偏移。3. NaO的突然降低引起TI暂时增加,几分钟后持续减小。最初的增加与增强的后收缩密切平行,并且可以用NaO对细胞内钙的间接作用来解释。随后TI幅度的下降可以用驱动力E-Erev的降低来解释。4. 用甲基硫酸盐取代细胞外氯,或细胞外钙(2.7-16.2mM)或细胞外钾(1-8mM)的有限变化,均未使Erev发生显著改变。5. 这些结果与膜对钠以及可能对钾的通透性增加是一致的。6. TI不受阻断兴奋性钠通道的河豚毒素(TTX)或抑制内向整流钾通道的铯(Cs)的直接影响。TI在动力学、药理学和离子特性方面可能与缓慢内向电流不同。7. TI可能由预先存在的离子通道传导,如为正常起搏点去极化提供内向电流的“渗漏”通道。另一种可能性是TI反映了电致钙-钠交换引起的钙外流。
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