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用于测量氧摄取和评估线粒体毒性的人体组织工程化骨骼肌肌束

Human, Tissue-Engineered, Skeletal Muscle Myobundles to Measure Oxygen Uptake and Assess Mitochondrial Toxicity.

作者信息

Davis Brittany N J, Santoso Jeffrey W, Walker Michaela J, Cheng Cindy S, Koves Timothy R, Kraus William E, Truskey George A

机构信息

1 Department of Biomedical Engineering, Duke University , Durham, North Carolina.

2 Duke Molecular Physiology Institute, Duke University School of Medicine , Durham, North Carolina.

出版信息

Tissue Eng Part C Methods. 2017 Apr;23(4):189-199. doi: 10.1089/ten.tec.2016.0264. Epub 2017 Mar 24.

Abstract

Mitochondrial dysfunction is responsible for the toxicity of a number of drugs. Current isolated mitochondria or cellular monoculture mitochondrial respiration measurement systems lack physiological relevance. Using a tissue engineering rather than cell- or mitochondria-based approach enables a more physiologically relevant detection of drug-induced mitochondrial impairment. To probe oxygen consumption and mitochondrial health, we assayed the bioenergetic profile of engineered three-dimensional human skeletal muscle myobundles derived from primary myoblasts. Through experimental and computational techniques, we did not find external or internal oxygen transport limiting the engineered myobundles in the commercial O2k system to measure oxygen consumption. In response to the complex I inhibitor rotenone, myobundle basal respiration decreased dose dependently with an IC of 9.24 ± 0.03 nM. At a 20 nM concentration of rotenone, myobundle maximal respiration decreased by 44.4% ± 9.8%. Respiratory depression by rotenone suggests that cultured myobundles rely heavily on the complex I pathway for ATP synthesis during times of both basal and increased energy demand. To address whether these decrements in mitochondrial function corresponded to alterations in physiological muscle function, we determined fatigue susceptibility that revealed a 46.0% ± 7.4% depression at 20 nM rotenone. The bioenergetic health index, which is a measure of normal oxidative mitochondrial function, was inversely correlated with the extent of fatigue. The human myobundles reproduce normal muscle metabolism under both basal and maximal energy demand conditions enabling the detection of drug-induced mitochondrial toxicity.

摘要

线粒体功能障碍是多种药物毒性的原因。目前分离的线粒体或细胞单培养线粒体呼吸测量系统缺乏生理相关性。采用组织工程方法而非基于细胞或线粒体的方法,能够更具生理相关性地检测药物诱导的线粒体损伤。为了探究氧气消耗和线粒体健康状况,我们检测了源自原代成肌细胞的工程化三维人骨骼肌肌束的生物能量学特征。通过实验和计算技术,我们发现在用于测量氧气消耗的商业O2k系统中,外部或内部氧气运输并未限制工程化肌束。响应于复合物I抑制剂鱼藤酮,肌束基础呼吸随剂量依赖性降低,IC为9.24±0.03 nM。在20 nM鱼藤酮浓度下,肌束最大呼吸降低了44.4%±9.8%。鱼藤酮引起的呼吸抑制表明,在基础能量需求和增加能量需求时,培养的肌束在很大程度上依赖复合物I途径进行ATP合成。为了研究线粒体功能的这些下降是否与生理肌肉功能的改变相对应,我们测定了疲劳易感性,结果显示在20 nM鱼藤酮作用下疲劳程度降低了46.0%±7.4%。生物能量健康指数是衡量正常氧化线粒体功能的指标,与疲劳程度呈负相关。人肌束在基础能量需求和最大能量需求条件下均能重现正常的肌肉代谢,从而能够检测药物诱导的线粒体毒性。

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