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对分离的经透化处理的兔心室心肌细胞自发Ca2+波期间肌浆网Ca2+耗竭的评估。

Assessment of sarcoplasmic reticulum Ca2+ depletion during spontaneous Ca2+ waves in isolated permeabilized rabbit ventricular cardiomyocytes.

作者信息

MacQuaide N, Dempster J, Smith G L

机构信息

Faculty of Biomedical and Life Sciences, University of Glasgow, Glasgow, United Kingdom.

出版信息

Biophys J. 2009 Apr 8;96(7):2744-54. doi: 10.1016/j.bpj.2008.12.3944.

Abstract

In this study, Ca2+ release due to spontaneous Ca2+ waves was measured both from inside the sarcoplasmic reticulum (SR) and from the cytosol of rabbit cardiomyocytes. These measurements utilized Fluo5N-AM for intra-SR Ca2+ from intact cells and Fluo5F in the cytosol of permeabilized cells. Restricted subcellular volumes were resolved with the use of laser-scanning confocal microscopy. Local Ca2+ signals during spontaneous Ca2+ release were compared with those induced by rapid caffeine application. The free cytoplasmic [Ca2+] increase during a Ca2+ wave was 98.1% +/- 0.3% of that observed during caffeine application. Conversion to total Ca2+ release suggested that Ca2+ release from a Ca2+ wave was not significantly different from that released during caffeine application (104% +/- 6%). In contrast, the maximum decrease in intra-SR Fluo-5N fluorescence during a Ca2+ wave was 82.5% +/- 2.6% of that observed during caffeine application. Assuming a maximum free [Ca2+] of 1.1 mM, this translates to a 96.2% +/- 0.8% change in intra-SR free [Ca2+] and a 91.7% +/- 1.6% depletion of the total Ca2+. This equates to a minimum intra-SR free Ca2+ of 46 +/- 7 microM during a Ca2+ wave. Reduction of RyR2 Ca2+ sensitivity by tetracaine (50 microM) reduced the spontaneous Ca2+ release frequency while increasing the Ca2+ wave amplitude. This did not significantly change the total depletion of the SR (94.5% +/- 1.1%). The calculated minimum [Ca2+] during these Ca2+ waves (87 +/- 19 microM) was significantly higher than control (p < 0.05). A computational model incorporating this level of Ca2+ depletion during a Ca2+ wave mimicked the transient and sustained effects of tetracaine on spontaneous Ca2+ release. In conclusion, spontaneous Ca2+ release results in substantial but not complete local Ca2+ depletion of the SR. Furthermore, measurements suggest that Ca2+ release terminates when luminal [Ca2+] reaches approximately 50 microM.

摘要

在本研究中,测量了兔心肌细胞肌浆网(SR)内部和细胞质中由于自发Ca2+波引起的Ca2+释放。这些测量使用Fluo5N-AM检测完整细胞内SR中的Ca2+,使用Fluo5F检测透化细胞细胞质中的Ca2+。通过激光扫描共聚焦显微镜分辨受限的亚细胞体积。将自发Ca2+释放期间的局部Ca2+信号与快速应用咖啡因诱导的信号进行比较。Ca2+波期间细胞质中游离[Ca2+]的增加是应用咖啡因期间观察到的增加量的98.1%±0.3%。转换为总Ca2+释放表明,Ca2+波引起的Ca2+释放与应用咖啡因期间释放的Ca2+没有显著差异(104%±6%)。相比之下,Ca2+波期间SR内Fluo-5N荧光的最大降低是应用咖啡因期间观察到的降低量的82.5%±2.6%。假设最大游离[Ca2+]为1.1 mM,这相当于SR内游离[Ca2+]变化96.2%±0.8%,总Ca2+消耗91.7%±1.6%。这相当于Ca2+波期间SR内游离Ca2+的最小值为46±7 microM。用丁卡因(50 microM)降低RyR2 Ca2+敏感性可降低自发Ca2+释放频率,同时增加Ca2+波幅度。这并没有显著改变SR的总消耗量(94.5%±1.1%)。这些Ca2+波期间计算出的最小[Ca2+](87±19 microM)显著高于对照组(p<0.05)。一个包含Ca2+波期间这种Ca2+消耗水平的计算模型模拟了丁卡因对自发Ca2+释放的瞬时和持续影响。总之,自发Ca2+释放导致SR局部Ca2+大量但不完全消耗。此外,测量表明,当管腔[Ca2+]达到约50 microM时,Ca2+释放终止。

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