血管紧张素II可降低骨骼肌中的线粒体含量,并影响血糖控制。
Angiotensin II reduces mitochondrial content in skeletal muscle and affects glycemic control.
作者信息
Mitsuishi Masanori, Miyashita Kazutoshi, Muraki Ayako, Itoh Hiroshi
机构信息
Department of Internal Medicine, School of Medicine, Keio University, Tokyo, Japan.
出版信息
Diabetes. 2009 Mar;58(3):710-7. doi: 10.2337/db08-0949. Epub 2008 Dec 15.
OBJECTIVE
Blockade of angiotensin (Ang) II has been shown to prevent new-onset type 2 diabetes. We focused on the effects of AngII on muscle mitochondria, especially on their biogenesis, as an underlining mechanism of type 2 diabetes.
RESEARCH DESIGN AND METHODS
C2C12 cells and C57bl/6 mice were used to examine roles for AngII in the regulation of muscle mitochondria and to explore whether the effect was mediated by type 1 AngII receptor (AT1R) or type 2 receptor (AT2R).
RESULTS
C2C12 cells treated with 10(-8)-10(-6) mol/l AngII reduced the mitochondrial content associated with downregulation of the genes involved in mitochondrial biogenesis. The action of AngII was diminished by blockade of AT2R but not AT1R, whereas overexpression of AT2R augmented the effect. AngII increased mitochondrial ROS and decreased mitochondrial membrane potential, and these effects of AngII were significantly suppressed by blockade of either AT1R or AT2R. Chronic AngII infusion in mice also reduced muscle mitochondrial content in association with increased intramuscular triglyceride and deteriorated glycemic control. The AngII-induced reduction in muscle mitochondria in mice was partially, but significantly, reversed by blockade of either AT1R or AT2R, associated with increased fat oxidation, decreased muscle triglyceride, and improved glucose tolerance. Genes involved in mitochondrial biogenesis were decreased via AT2R but not AT1R under these in vivo conditions.
CONCLUSIONS
Taken together, these findings imply the novel roles for AngII in the regulation of muscle mitochondria and lipid metabolism. AngII reduces mitochondrial content possibly through AT1R-dependent augmentation of their degradation and AT2R-dependent direct suppression of their biogenesis.
目的
已证实阻断血管紧张素(Ang)II可预防新发2型糖尿病。我们重点研究了AngII对肌肉线粒体的影响,尤其是对其生物合成的影响,以此作为2型糖尿病的潜在机制。
研究设计与方法
使用C2C12细胞和C57bl/6小鼠来研究AngII在肌肉线粒体调节中的作用,并探讨该作用是否由1型AngII受体(AT1R)或2型受体(AT2R)介导。
结果
用10⁻⁸ - 10⁻⁶ mol/l AngII处理的C2C12细胞减少了线粒体含量,这与线粒体生物合成相关基因的下调有关。阻断AT2R可减弱AngII的作用,而阻断AT1R则无此效果,而过表达AT2R会增强该作用。AngII增加了线粒体活性氧并降低了线粒体膜电位,AT1R或AT2R的阻断均可显著抑制AngII的这些作用。对小鼠进行慢性AngII输注也会降低肌肉线粒体含量,同时伴有肌肉内甘油三酯增加和血糖控制恶化。阻断AT1R或AT2R可部分但显著地逆转小鼠中AngII诱导的肌肉线粒体减少,这与脂肪氧化增加、肌肉甘油三酯减少和葡萄糖耐量改善有关。在这些体内条件下,通过AT2R而非AT1R可使参与线粒体生物合成的基因减少。
结论
综上所述,这些发现表明AngII在肌肉线粒体和脂质代谢调节中具有新作用。AngII可能通过AT1R依赖性增强其降解和AT2R依赖性直接抑制其生物合成来降低线粒体含量。
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