哺乳动物心脏中的细胞钙波动:来自浦肯野纤维中水母发光蛋白信号噪声分析的直接证据。
Cellular calcium fluctuations in mammalian heart: direct evidence from noise analysis of aequorin signals in Purkinje fibers.
作者信息
Wier W G, Kort A A, Stern M D, Lakatta E G, Marban E
出版信息
Proc Natl Acad Sci U S A. 1983 Dec;80(23):7367-71. doi: 10.1073/pnas.80.23.7367.
Abstract
Indirect evidence suggests that fluctuations, or oscillations, in the intracellular free calcium concentration [( Ca2+]i) can occur spontaneously in intact cardiac preparations, but such [Ca2+]i fluctuations have never been demonstrated directly. We used the bioluminescent Ca2+-sensitive protein aequorin to detect fluctuations in the [Ca2+]i in canine cardiac Purkinje fibers. Noise analysis of the aequorin luminescence reveals prominent peaks of power density at frequencies of 1-4 Hz; these peaks become larger and shift to higher frequencies as the [Ca2+]i increases. Caffeine and ryanodine abolish the [Ca2+]i fluctuations, suggesting that Ca2+ release and uptake by the sarcoplasmic reticulum generate these events. When [Ca2+]i fluctuations are present, less tension is produced at any given level of mean aequorin luminescence. Thus, [Ca2+]i fluctuations will undermine attempts to relate [Ca2+]i and force in intact myocardium.
摘要
间接证据表明,完整心脏标本中细胞内游离钙浓度[Ca2+]i会自发出现波动或振荡,但这种[Ca2+]i波动从未得到直接证实。我们使用生物发光的Ca2+敏感蛋白水母发光蛋白来检测犬心脏浦肯野纤维中的[Ca2+]i波动。对水母发光蛋白发光的噪声分析显示,在1 - 4赫兹频率处有明显的功率密度峰值;随着[Ca2+]i增加,这些峰值变大并向更高频率移动。咖啡因和兰尼碱可消除[Ca2+]i波动,这表明肌浆网对Ca2+的释放和摄取引发了这些事件。当存在[Ca2+]i波动时,在任何给定的平均水母发光蛋白发光水平下产生的张力都会降低。因此,[Ca2+]i波动会破坏在完整心肌中建立[Ca2+]i与力之间关系的尝试。
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Cellular calcium fluctuations in mammalian heart: direct evidence from noise analysis of aequorin signals in Purkinje fibers.哺乳动物心脏中的细胞钙波动:来自浦肯野纤维中水母发光蛋白信号噪声分析的直接证据。
Proc Natl Acad Sci U S A. 1983 Dec;80(23):7367-71. doi: 10.1073/pnas.80.23.7367.
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本文引用的文献
1
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.
2
Intensity fluctuation spectroscopy monitors contractile activation in "resting" cardiac muscle.强度波动光谱法监测“静息”心肌中的收缩激活。
Science. 1980 Mar 21;207(4437):1369-71. doi: 10.1126/science.7355295.
3
Calcium transients during excitation-contraction coupling in mammalian heart: aequorin signals of canine Purkinje fibers.哺乳动物心脏兴奋-收缩偶联过程中的钙瞬变:犬浦肯野纤维的水母发光蛋白信号
Science. 1980 Mar 7;207(4435):1085-7. doi: 10.1126/science.7355274.
4
Diastolic scattered light fluctuation, resting force and twitch force in mammalian cardiac muscle.哺乳动物心肌的舒张期散射光波动、静息力和抽搐力。
J Physiol. 1981 Jun;315:369-94. doi: 10.1113/jphysiol.1981.sp013753.
5
Potential and tension changes induced by sodium removal in dog Purkinje fibres: role of an electrogenic sodium-calcium exchange.狗浦肯野纤维中钠去除所诱导的电位和张力变化:电致钠钙交换的作用
J Physiol. 1981 Feb;311:605-22. doi: 10.1113/jphysiol.1981.sp013607.
6
Voltage-clamp studies of transient inward current and mechanical oscillations induced by ouabain in ferret papillary muscle.哇巴因诱导雪貂乳头肌瞬态内向电流和机械振荡的电压钳研究。
J Physiol. 1982 Jun;327:255-71. doi: 10.1113/jphysiol.1982.sp014230.
7
Scattered-light intensity fluctuations in diastolic rat cardiac muscle caused by spontaneous Ca++-dependent cellular mechanical oscillations.自发性钙依赖性细胞机械振荡引起的舒张期大鼠心肌散在光强度波动。
J Gen Physiol. 1983 Jul;82(1):119-53. doi: 10.1085/jgp.82.1.119.
8
The control of tonic tension by membrane potential and intracellular sodium activity in the sheep cardiac Purkinje fibre.绵羊心脏浦肯野纤维中膜电位和细胞内钠活性对强直张力的控制
J Physiol. 1983 Feb;335:723-43. doi: 10.1113/jphysiol.1983.sp014560.
9
Fluctuations in membrane current driven by intracellular calcium in cardiac Purkinje fibers.心脏浦肯野纤维中细胞内钙驱动的膜电流波动。
Biophys J. 1982 Jun;38(3):259-69. doi: 10.1016/S0006-3495(82)84557-8.
10
Measurement of Ca2+ concentrations in living cells.活细胞中钙离子浓度的测量。
Prog Biophys Mol Biol. 1982;40(1-2):1-114. doi: 10.1016/0079-6107(82)90011-6.
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