持续的AMPK激活通过促进肌纤维再生改善线粒体肌病小鼠模型的肌肉功能。
Sustained AMPK activation improves muscle function in a mitochondrial myopathy mouse model by promoting muscle fiber regeneration.
作者信息
Peralta Susana, Garcia Sofia, Yin Han Yang, Arguello Tania, Diaz Francisca, Moraes Carlos T
机构信息
Department of Neurology.
Genetics Graduate Program.
出版信息
Hum Mol Genet. 2016 Aug 1;25(15):3178-3191. doi: 10.1093/hmg/ddw167. Epub 2016 Jun 10.
Abstract
Acute pharmacological activation of adenosine monophosphate (AMP)-kinase using 5-aminoimidazole-4-carboxamide-1-b-D-ribofuranoside (AICAR) has been shown to improve muscle mitochondrial function by increasing mitochondrial biogenesis. We asked whether prolonged AICAR treatment is beneficial in a mouse model of slowly progressing mitochondrial myopathy (Cox10-Mef2c-Cre), and whether the compensatory mechanism is indeed an increase in mitochondrial biogenesis. We treated the animals for 3 months and found that sustained AMP-dependent kinase activation improved cytochrome c oxidase activity, rescued the motor phenotype and delayed the onset of the myopathy. This improvement was observed whether treatment started before or after the onset of the disease. We found that AICAR increased skeletal muscle regeneration thereby decreasing the levels of deleted Cox10-floxed alleles. We conclude that although increase in mitochondrial biogenesis and other pathways may contribute, the main mechanism by which AICAR improves the myopathy phenotype is by promoting muscle regeneration.
摘要
使用5-氨基咪唑-4-甲酰胺-1-β-D-呋喃核糖苷(AICAR)对单磷酸腺苷(AMP)激酶进行急性药理学激活已被证明可通过增加线粒体生物合成来改善肌肉线粒体功能。我们研究了长期AICAR治疗对缓慢进展性线粒体肌病小鼠模型(Cox10-Mef2c-Cre)是否有益,以及补偿机制是否确实是线粒体生物合成的增加。我们对动物进行了3个月的治疗,发现持续的AMP依赖性激酶激活改善了细胞色素c氧化酶活性,挽救了运动表型并延迟了肌病的发作。无论治疗在疾病发作之前还是之后开始,均观察到这种改善。我们发现AICAR增加了骨骼肌再生,从而降低了缺失的Cox10-floxed等位基因的水平。我们得出结论,尽管线粒体生物合成和其他途径的增加可能起作用,但AICAR改善肌病表型的主要机制是促进肌肉再生。
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