利用荧光寿命指示剂监测盖玻片缺氧期间心肌细胞线粒体钙离子的变化

Yusuf Mastoor , Mikako Harata , Kavisha Silva , Chengyu Liu , Christian A. Combs , Barbara Roman , Elizabeth Murphy
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引用次数: 0

摘要

线粒体钙通过线粒体钙离子单向传输器(MCU)增加与缺血再灌注(I/R)损伤期间心脏细胞死亡有关。由于指示剂对 pH 值的敏感性以及 I/R 期间 pH 值的下降,I/R 期间的钙测量一直具有挑战性。线粒体定位绿松石钙荧光寿命传感器(mitochondrial localized Turquoise Calcium Fluorescence Lifetime Sensor, mito-TqFLITS)是一种对pH值不敏感的指示剂,它的开发使人们可以通过荧光寿命成像来量化I/R过程中线粒体的钙。使用mito-TqFLITS监测了从MCU-KO小鼠和MCUfl/fl小鼠种系分离的新生小鼠心室肌细胞(NMVM)中的线粒体钙。为模拟缺血,在单层 NMVM 上放置盖玻片,以阻止氧气和营养物质进入。移除盖玻片后诱导再灌注。在 MCU-WT 的盖玻片缺氧过程中,线粒体钙增加了三倍。种系 MCU-KO 在盖玻片缺氧期间线粒体钙明显增加,但明显低于 MCU-WT。我们还发现,与 WT 相比,急性 MCU-KO 在盖玻片缺氧和复氧过程中的线粒体钙含量没有差异。为了确定线粒体钙吸收通过 MCU 在引发细胞死亡中的作用,我们使用碘化丙啶来测量细胞死亡。我们发现种系MCU-KO和急性MCU-KO的细胞死亡都明显增加,但与各自的WT相似。这些数据证明了 mito-TqFLITS 在模拟 I/R 过程中监测线粒体钙的实用性,并进一步表明种系 MCU 缺失可减轻缺血过程中线粒体钙的升高,但不会减少细胞死亡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Monitoring mitochondrial calcium in cardiomyocytes during coverslip hypoxia using a fluorescent lifetime indicator

An increase in mitochondrial calcium via the mitochondrial calcium uniporter (MCU) has been implicated in initiating cell death in the heart during ischemia-reperfusion (I/R) injury. Measurement of calcium during I/R has been challenging due to the pH sensitivity of indicators coupled with the fall in pH during I/R. The development of a pH-insensitive indicator, mitochondrial localized Turquoise Calcium Fluorescence Lifetime Sensor (mito-TqFLITS), allows for quantifying mitochondrial calcium during I/R via fluorescent lifetime imaging. Mitochondrial calcium was monitored using mito-TqFLITS in neonatal mouse ventricular myocytes (NMVM) isolated from germline MCU-KO mice and MCUfl/fl treated with CRE-recombinase to acutely knockout MCU. To simulate ischemia, a coverslip was placed on a monolayer of NMVMs to prevent access to oxygen and nutrients. Reperfusion was induced by removing the coverslip. Mitochondrial calcium increases threefold during coverslip hypoxia in MCU-WT. There is a significant increase in mitochondrial calcium during coverslip hypoxia in germline MCU-KO, but it is significantly lower than in MCU-WT. We also found that compared to WT, acute MCU-KO resulted in no difference in mitochondrial calcium during coverslip hypoxia and reoxygenation. To determine the role of mitochondrial calcium uptake via MCU in initiating cell death, we used propidium iodide to measure cell death. We found a significant increase in cell death in both the germline MCU-KO and acute MCU-KO, but this was similar to their respective WTs. These data demonstrate the utility of mito-TqFLITS to monitor mitochondrial calcium during simulated I/R and further show that germline loss of MCU attenuates the rise in mitochondrial calcium during ischemia but does not reduce cell death.

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来源期刊
Journal of molecular and cellular cardiology plus
Journal of molecular and cellular cardiology plus Cardiology and Cardiovascular Medicine
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