Laboratory of Signal-dependent Transcription, Department of Translational Pharmacology DTP, Consorzio Mario Negri Sud, 66030, Santa Maria Imbaro Ch, Italy.
Cell Mol Life Sci. 2013 Jun;70(11):2015-29. doi: 10.1007/s00018-012-1244-6. Epub 2013 Jan 3.
Reduction of nutrient intake without malnutrition positively influences lifespan and healthspan from yeast to mice and exerts some beneficial effects also in humans. The AMPK-FoxO axis is one of the evolutionarily conserved nutrient-sensing pathways, and the FOXO3A locus is associated with human longevity. Interestingly, FoxO3A has been reported to be also a mitochondrial protein in mammalian cells and tissues. Here we report that glucose restriction triggers FoxO3A accumulation into mitochondria of fibroblasts and skeletal myotubes in an AMPK-dependent manner. A low-glucose regimen induces the formation of a protein complex containing FoxO3A, SIRT3, and mitochondrial RNA polymerase (mtRNAPol) at mitochondrial DNA-regulatory regions causing activation of the mitochondrial genome and a subsequent increase in mitochondrial respiration. Consistently, mitochondrial transcription increases in skeletal muscle of fasted mice, with a mitochondrial DNA-bound FoxO3A/SIRT3/mtRNAPol complex detectable also in vivo. Our results unveil a mitochondrial arm of the AMPK-FoxO3A axis acting as a recovery mechanism to sustain energy metabolism upon nutrient restriction.
在不造成营养不良的情况下减少营养摄入,可积极影响酵母到老鼠的寿命和健康寿命,并对人类也产生一些有益的影响。AMPK-FoxO 轴是进化上保守的营养感应途径之一,而 FOXO3A 基因座与人类长寿有关。有趣的是,FoxO3A 已被报道也是哺乳动物细胞和组织中的线粒体蛋白。在这里,我们报告葡萄糖限制以 AMPK 依赖的方式触发成纤维细胞和骨骼肌肌管中线粒体中 FoxO3A 的积累。低糖方案在线粒体 DNA 调节区域形成包含 FoxO3A、SIRT3 和线粒体 RNA 聚合酶 (mtRNAPol) 的蛋白质复合物,导致线粒体基因组的激活以及随后线粒体呼吸的增加。一致地,快速禁食小鼠的骨骼肌中线粒体转录增加,体内也可检测到线粒体 DNA 结合的 FoxO3A/SIRT3/mtRNAPol 复合物。我们的结果揭示了 AMPK-FoxO3A 轴的一个线粒体分支,作为在营养限制时维持能量代谢的恢复机制。