马气道肌细胞中的电压依赖性钙电流和胞质钙
Voltage-dependent calcium currents and cytosolic calcium in equine airway myocytes.
作者信息
Fleischmann B K, Wang Y X, Pring M, Kotlikoff M I
机构信息
Department of Animal Biology, School of Veterinary Medicine, University of Pennsylvania, Philadelphia 19104-6046, USA.
出版信息
J Physiol. 1996 Apr 15;492 ( Pt 2)(Pt 2):347-58. doi: 10.1113/jphysiol.1996.sp021313.
Abstract
- The relationship between voltage-dependent calcium channel current (I(Ca)) and cytosolic free calcium concentration ([Ca2+]i) was studied in fura-2 AM-loaded equine tracheal myocytes at 35 degrees C and 1.8 mM Ca2+ using the nystatin patch clamp method. The average cytosolic calcium buffering constant was 77 +/- 3 (n = 14), and the endogenous calcium buffering constant component is likely to be between 15 and 50. 2. I(Ca) did not evoke significant calcium-induced calcium release (CICR) since (i)[Ca2+]i scaled with the integrated I(Ca) over the full voltage range of evoked calcium currents, (ii) increases in [Ca2+]i associated with I(Ca) were consistent with cytoplasmic buffering of calcium ions entering through voltage-dependent calcium channels (VDCCs) only, (iii) there was a fixed instantaneous relationship between transmembrane calcium flux (J(Ca)) and the change in cytosolic free calcium concentration (delta [Ca2+]i) during I(Ca), (iv) caffeine (8 mM) triggered 8-fold higher calcium transients than I(Ca), and (v) I(Ca) evoked following release of intracellular calcium by caffeine resulted in an equivalent delta[Ca2+]i-J(Ca) relationship. 3. The time constant (T) for the decay in [Ca2+]i was 8.6 +/- 1.5 s (n = 8) for single steps and 8.6 +/- 1.1 s (n = 13) following multiple steps that increased [Ca2+]i to much higher levels. Following application of caffeine (8 mM), however, [Ca2+]i decay was enhanced (T = 2.0 +/- 0.2 s, n = 3). The rate of [Ca2+]i decay was not voltage dependent, was not decreased in the absence of extracellular Na+ ions, and no pump current was detected. 4. We conclude that under near physiological conditions, neither CICR nor Na(+)-Ca2+ exchange play a substantial role in the regulation of I(Ca)-induced increases in [Ca2+]i, and that, even following release of intracellular calcium by caffeine, Na(+)-Ca2+ exchange does not play an appreciable role in the removal of calcium ions from the cytosol.
摘要
- 在35℃和1.8 mM Ca2+条件下,采用制霉菌素膜片钳技术,研究了用fura-2 AM负载的马气管肌细胞中电压依赖性钙通道电流(I(Ca))与胞质游离钙浓度([Ca2+]i)之间的关系。平均胞质钙缓冲常数为77±3(n = 14),内源性钙缓冲常数成分可能在15至50之间。2. I(Ca)未引发显著的钙诱导钙释放(CICR),原因如下:(i)[Ca2+]i在诱发钙电流的整个电压范围内与积分后的I(Ca)成比例;(ii)与I(Ca)相关的[Ca2+]i增加仅与通过电压依赖性钙通道(VDCCs)进入的钙离子的细胞质缓冲作用一致;(iii)在I(Ca)期间,跨膜钙通量(J(Ca))与胞质游离钙浓度变化(δ[Ca2+]i)之间存在固定的瞬时关系;(iv)咖啡因(8 mM)引发的钙瞬变比I(Ca)高8倍;(v)咖啡因释放细胞内钙后诱发的I(Ca)导致了等效的δ[Ca2+]i - J(Ca)关系。3. 单步操作时,[Ca2+]i衰减的时间常数(T)为8.6±1.5 s(n = 8),将[Ca2+]i提高到更高水平的多步操作后为8.6±1.1 s(n = 13)。然而,施加咖啡因(8 mM)后,[Ca2+]i衰减增强(T = 2.0±0.2 s,n = 3)。[Ca2+]i衰减速率不依赖于电压,在无细胞外Na+离子时也不降低,且未检测到泵电流。4. 我们得出结论,在接近生理条件下,CICR和Na(+)-Ca2+交换在调节I(Ca)诱导的[Ca2+]i增加中均不起重要作用,并且即使在咖啡因释放细胞内钙后,Na(+)-Ca2+交换在从胞质中去除钙离子方面也不起明显作用。
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