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完整小鼠心肌中的钙循环与收缩激活

Calcium cycling and contractile activation in intact mouse cardiac muscle.

作者信息

Gao W D, Perez N G, Marban E

机构信息

Section of Molecular and Cellular Cardiology, Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA.

出版信息

J Physiol. 1998 Feb 15;507 ( Pt 1)(Pt 1):175-84. doi: 10.1111/j.1469-7793.1998.175bu.x.

DOI:10.1111/j.1469-7793.1998.175bu.x
PMID:9490835
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2230761/
Abstract
  1. Excitation-contraction coupling in mouse cardiac muscle remains poorly characterized, despite the fact that the mouse is the mammalian species of choice for genetic manipulation. In this study, we characterized the relationship between internal calcium concentration ([Ca2+]i) and contraction in intact mouse ventricular muscle loaded with fura-2 salt at 20-22 degrees C. 2. Both Ca2+ transient amplitude and twitch force increased monotonically as external Ca2+ concentration ([Ca2+]o) was increased up to 8.0 mM, with no changes in diastolic levels or in the times to peak of either Ca2+ transients or force. The decay of Ca2+ transients was accelerated as [Ca2+]o increased, while relaxation was prolonged. Both Ca2+ transient amplitude and twitch force increased as stimulation rate increased from 0.2 to 4 Hz, but the increase in force was much greater than the underlying increase in [Ca2+]i. 3. The steady-state force-[Ca2+]i relationship revealed an [Ca2+]i required for 50 % of maximal activation (Ca50) of 0.95 +/- 0.08 microM, a Hill coefficient of 9.9 +/- 2.6, and a maximal Ca2+-activated force (Fmax) of 60 +/- 5 mN mm-2. 4. Unlike rat ventricular myocardium, mouse cardiac muscle resists supraphysiological [Ca2+]o. The strong positive force-frequency relationship in mouse cardiac muscle, with increases of force disproportionate to the increases in Ca2+ transients, suggests frequency-dependent 'sensitization' of the myofilaments. During steady-state activation, mouse muscle exhibits decreased Ca2+ responsiveness relative to other species, but high co-operativity. 5. These physiological features of mouse cardiac muscle merit consideration when interpreting the phenotypic consequences of genetic manipulations
摘要
  1. 尽管小鼠是进行基因操作的首选哺乳动物物种,但小鼠心肌中的兴奋 - 收缩偶联仍未得到充分表征。在本研究中,我们在20 - 22摄氏度下,对加载了fura - 2盐的完整小鼠心室肌中细胞内钙浓度([Ca2 + ]i)与收缩之间的关系进行了表征。2. 随着外部钙浓度([Ca2 + ]o)增加至8.0 mM,Ca2 + 瞬变幅度和抽搐力均单调增加,舒张水平以及Ca2 + 瞬变或力的峰值时间均无变化。随着[Ca2 + ]o增加,Ca2 + 瞬变的衰减加速,而舒张期延长。随着刺激频率从0.2 Hz增加到4 Hz,Ca2 + 瞬变幅度和抽搐力均增加,但力的增加远大于[Ca2 + ]i的潜在增加。3. 稳态力 - [Ca2 + ]i关系显示,50%最大激活(Ca50)所需的[Ca2 + ]i为0.95±0.08微摩尔,希尔系数为9.9±2.6,最大Ca2 + 激活力(Fmax)为60±5毫牛顿/平方毫米。4. 与大鼠心室肌不同,小鼠心肌能抵抗超生理水平的[Ca2 + ]o。小鼠心肌中强烈的正力 - 频率关系,即力的增加与Ca2 + 瞬变的增加不成比例,表明肌丝存在频率依赖性“敏化”。在稳态激活期间,小鼠肌肉相对于其他物种表现出降低的Ca2 + 反应性,但具有高协同性。5. 在解释基因操作的表型后果时,小鼠心肌的这些生理特征值得考虑。

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Method for isolation of adult mouse cardiac myocytes for studies of contraction and microfluorimetry.用于收缩和微量荧光测定研究的成年小鼠心肌细胞分离方法。
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Effect of ischemia and ischemia--reperfusion on ryanodine binding and Ca2+ uptake of cardiac sarcoplasmic reticulum.缺血及缺血-再灌注对心肌肌浆网中兰尼碱结合及钙离子摄取的影响
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Skeletal troponin C reduces contractile sensitivity to acidosis in cardiac myocytes from transgenic mice.骨骼肌肌钙蛋白C降低了转基因小鼠心肌细胞对酸中毒的收缩敏感性。
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