线粒体肌病 Mterf3 KO 小鼠中增强的心肌细胞 Ca(2+)循环先于终末期房室传导阻滞。

Enhanced cardiomyocyte Ca(2+) cycling precedes terminal AV-block in mitochondrial cardiomyopathy Mterf3 KO mice.

机构信息

Department of Physiology and Pharmacology, Karolinska Institutet, Stockholm, Sweden.

出版信息

Antioxid Redox Signal. 2011 Nov 1;15(9):2455-64. doi: 10.1089/ars.2011.3915. Epub 2011 May 25.

DOI:10.1089/ars.2011.3915

PMID:21381862

Abstract

AIMS

Heart disease is commonly associated with altered mitochondrial function and signs of oxidative stress. This study elucidates whether primary cardiac mitochondrial dysfunction causes changes in cardiomyocyte handling of reactive oxygen species (ROS) and Ca(2+). We used a mouse model with a tissue-specific ablation of the recently discovered mtDNA transcription regulator Mterf3 (Mterf3 KO). These mice display a cardiomyopathy with severe respiratory chain dysfunction, cardiac hypertrophy, and shortened lifespan. ROS and Ca(2+) handling were measured using fluorescent indicators and confocal microscopy.

RESULTS

Mterf3 KO hearts displayed no signs of increased ROS production or oxidative stress. Surprisingly, Mterf3 KO cardiomyocytes showed enlarged Ca(2+) transient amplitudes, faster sarcoplasmic reticulum (SR) Ca(2+) reuptake, and increased SR Ca(2+) load, resembling increased adrenergic stimulation. Furthermore, spontaneous releases of Ca(2+) were frequent in Mterf3 KO cardiomyocytes. Electrocardiography (measured with telemetry in freely moving mice) showed a terminal state in Mterf3 KO mice with gradually developing bradycardia and atrioventricular block.

CONCLUSION

In conclusion, mitochondrial dysfunction induced by Mterf3 KO leads to a cardiomyopathy without signs of oxidative stress but with increased cardiomyocyte Ca(2+) cycling and an arrhythmogenic phenotype. These findings highlight the complex interaction between mitochondrial function, cardiomyocyte contractility, and compensatory mechanisms, such as activation of adrenergic signaling.

摘要

目的

心脏病通常与线粒体功能改变和氧化应激迹象有关。本研究阐明原发性心肌线粒体功能障碍是否导致心肌细胞处理活性氧（ROS）和 Ca(2+)的变化。我们使用一种组织特异性敲除最近发现的 mtDNA 转录调节剂 Mterf3（Mterf3 KO）的小鼠模型。这些小鼠表现出心肌病，伴有严重的呼吸链功能障碍、心肌肥厚和寿命缩短。使用荧光指示剂和共焦显微镜测量 ROS 和 Ca(2+)处理。

结果

Mterf3 KO 心脏没有显示出增加的 ROS 产生或氧化应激的迹象。令人惊讶的是，Mterf3 KO 心肌细胞显示出 Ca(2+)瞬变幅度增大、肌浆网（SR）Ca(2+)再摄取速度加快和 SR Ca(2+)负荷增加，类似于增加的肾上腺素能刺激。此外，Mterf3 KO 心肌细胞中 Ca(2+)的自发释放频繁发生。心电图（在自由活动的小鼠中通过遥测测量）显示 Mterf3 KO 小鼠出现终末状态，表现为逐渐出现心动过缓和房室传导阻滞。

结论

总之，Mterf3 KO 诱导的线粒体功能障碍导致心肌病，没有氧化应激迹象，但心肌细胞 Ca(2+)循环增加，表现出心律失常表型。这些发现强调了线粒体功能、心肌细胞收缩性和代偿机制之间的复杂相互作用，如肾上腺素能信号的激活。

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线粒体肌病 Mterf3 KO 小鼠中增强的心肌细胞 Ca(2+)循环先于终末期房室传导阻滞。

Enhanced cardiomyocyte Ca(2+) cycling precedes terminal AV-block in mitochondrial cardiomyopathy Mterf3 KO mice.

机构信息

出版信息

AIMS

RESULTS

CONCLUSION

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结果

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