模拟缺血对离体雪貂心室肌细胞内钙离子及张力的影响。
The consequences of simulated ischaemia on intracellular Ca2+ and tension in isolated ferret ventricular muscle.
作者信息
Allen D G, Lee J A, Smith G L
机构信息
Department of Physiology, University College London.
出版信息
J Physiol. 1989 Mar;410:297-323. doi: 10.1113/jphysiol.1989.sp017534.
Abstract
- In order to study cellular events occurring in ischaemia, we have developed a method for simulating ischaemia in an isolated papillary muscle. Muscles were suspended in a chamber and changed from conventional superfusion with Tyrode solution to gas perfusion with 95% N2/5% CO2 (N2 gas perfusion), thus simultaneously stopping oxygenation and flow. Surface cells of the preparation were injected with the photoprotein aequorin in order to monitor intracellular free calcium concentration [( Ca2+]i). 2. Gas perfusion with 95% O2/5% CO2 (O2 gas perfusion) had little effect on the tension or Ca2+ transients. Superfusion with Tyrode solution equilibrated with 95% N2/5% CO2 (N2 Tyrode) caused tension to decline to 30-40% of control, but had little effect on the amplitude of the Ca2+ transients. N2 gas perfusion caused tension to fall more rapidly and to a lower level than superfusion with N2 Tyrode. Ca2+ transients showed a small initial decline followed by a slowly developing increase in magnitude and duration. 3. Long exposures to N2 gas perfusion caused tension to decline to very low levels and Ca2+ transients to increase to a maximum. After a variable length of time, resting tension began to increase. At approximately the same time, Ca2+ transients began to decrease and eventually disappeared. Resting Ca2+ increased during N2 gas perfusion and remained elevated when the Ca2+ transients had declined. These changes could be reversed by restarting superfusion with standard Tyrode or by perfusion with O2 gas. 4. N2 gas perfusion caused a depolarization of the resting potential and an abbreviation of the action potential. In a long exposure the action potential eventually failed. These changes could be reversed by restarting superfusion with standard Tyrode or by perfusion with O2 gas. 5. Many of the effects of N2 gas perfusion could be mimicked by the addition of 20 mM-lactic acid to the superfusing solution, which caused a profound reduction of tension and also an increase in the amplitude and duration of the Ca2+ transients. Calculation of the changes in intracellular pH caused by the addition of lactic acid suggest that the fall in intracellular pH produced by lactic acid was similar to that occurring in ischaemia. 6. Repeated exposures to N2 gas perfusion caused tension to fall more rapidly and an increased resting tension to develop more rapidly. The slowly developing rise in Ca2+ transients was abolished and a rise in resting Ca2+ occurred more quickly. 7. When muscles were quiescent, exposure to N2 gas perfusion caused an increase in resting light.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 为了研究缺血时发生的细胞事件,我们开发了一种在离体乳头肌中模拟缺血的方法。将肌肉悬于腔室中,从用台氏液常规灌流改为用95% N₂/5% CO₂进行气体灌注(N₂气体灌注),从而同时停止氧合和血流。向标本的表面细胞注射光蛋白水母发光蛋白,以监测细胞内游离钙浓度[Ca²⁺]i。2. 用95% O₂/5% CO₂进行气体灌注(O₂气体灌注)对张力或Ca²⁺瞬变影响很小。用与95% N₂/5% CO₂平衡的台氏液灌流(N₂台氏液)使张力降至对照值的30 - 40%,但对Ca²⁺瞬变的幅度影响很小。N₂气体灌注使张力比用N₂台氏液灌流下降得更快且降至更低水平。Ca²⁺瞬变最初有小幅度下降,随后幅度和持续时间缓慢增加。3. 长时间暴露于N₂气体灌注使张力降至极低水平,Ca²⁺瞬变增加至最大值。在一段可变时间后,静息张力开始增加。大约同时,Ca²⁺瞬变开始下降并最终消失。在N₂气体灌注期间静息Ca²⁺增加,当Ca²⁺瞬变下降时仍保持升高。这些变化可通过重新用标准台氏液灌流或用O₂气体灌注来逆转。4. N₂气体灌注导致静息电位去极化和动作电位缩短。长时间暴露时动作电位最终消失。这些变化可通过重新用标准台氏液灌流或用O₂气体灌注来逆转。5. N₂气体灌注的许多效应可通过向灌流液中添加20 mM乳酸来模拟,这导致张力显著降低,同时Ca²⁺瞬变的幅度和持续时间增加。计算添加乳酸引起的细胞内pH变化表明,乳酸引起的细胞内pH下降与缺血时发生的情况相似。6. 重复暴露于N₂气体灌注使张力下降更快,静息张力升高更快。Ca²⁺瞬变的缓慢增加被消除,静息Ca²⁺升高更快。7. 当肌肉静止时,暴露于N₂气体灌注导致静息光增加。(摘要截断于400字)
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